/*
 * Custom OID/ioctl definitions for
 *
 *
 * Broadcom 802.11abg Networking Device Driver
 *
 * Definitions subject to change without notice.
 *
 * Copyright (C) 1999-2019, Broadcom.
 *
 *      Unless you and Broadcom execute a separate written software license
 * agreement governing use of this software, this software is licensed to you
 * under the terms of the GNU General Public License version 2 (the "GPL"),
 * available at http://www.broadcom.com/licenses/GPLv2.php, with the
 * following added to such license:
 *
 *      As a special exception, the copyright holders of this software give you
 * permission to link this software with independent modules, and to copy and
 * distribute the resulting executable under terms of your choice, provided that
 * you also meet, for each linked independent module, the terms and conditions
 * of the license of that module.  An independent module is a module which is
 * not derived from this software.  The special exception does not apply to any
 * modifications of the software.
 *
 *      Notwithstanding the above, under no circumstances may you combine this
 * software in any way with any other Broadcom software provided under a license
 * other than the GPL, without Broadcom's express prior written consent.
 *
 *
 * <<Broadcom-WL-IPTag/Open:>>
 *
 * $Id: wlioctl.h 824900 2019-06-12 05:42:13Z $
 */

#ifndef _wlioctl_h_
#define _wlioctl_h_

#include <typedefs.h>
#include <ethernet.h>
#include <bcmip.h>
#include <bcmeth.h>
#include <bcmip.h>
#include <bcmipv6.h>
#include <bcmevent.h>
#include <802.11.h>
#include <802.11s.h>
#include <802.1d.h>
#include <bcmwifi_channels.h>
#ifdef WL11AX
#include <802.11ax.h>
#endif /* WL11AX */
#include <bcmwifi_rates.h>
#include <wlioctl_defs.h>
#include <bcmipv6.h>

#include <bcm_mpool_pub.h>
#include <bcmcdc.h>
#define SSSR_NEW_API

/* Include bcmerror.h for error codes or aliases */
#ifdef BCMUTILS_ERR_CODES
#include <bcmerror.h>
#endif /* BCMUTILS_ERR_CODES */

/* NOTE re: Module specific error codes.
 *
 * BCME_.. error codes are extended by various features - e.g. FTM, NAN, SAE
 * etc. The current process is to allocate a range of 1024 negative 32 bit
 * integers to each module that extends the error codes to indicate a module
 * specific status.
 *
 * The next range to use is below. If that range is used for a new feature,
 * please update the range to be used by the next feature.
 *
 * The error codes -4096 ... -5119 are reserved for firmware signing.
 *
 * Next available (inclusive) range: [-8*1024 + 1, -7*1024]
 *
 * End Note
 */

/* 11ax trigger frame format - versioning info */
#define TRIG_FRAME_FORMAT_11AX_DRAFT_1P1 0

typedef struct {
    uint32 num;
    chanspec_t list[1];
} chanspec_list_t;

#define RSN_KCK_LENGTH 16
#define RSN_KEK_LENGTH 16
#define TPK_FTM_LEN 16
#ifndef INTF_NAME_SIZ
#define INTF_NAME_SIZ 16
#endif // endif

#define WL_ASSOC_START_EVT_DATA_VERSION 1

typedef struct assoc_event_data {
    uint32 version;
    uint32 flags;
    chanspec_t join_chspec;
} assoc_event_data_t;

/**Used to send ioctls over the transport pipe */
typedef struct remote_ioctl {
    cdc_ioctl_t msg;
    uint32 data_len;
    char intf_name[INTF_NAME_SIZ];
} rem_ioctl_t;
#define REMOTE_SIZE sizeof(rem_ioctl_t)

#define BCM_IOV_XTLV_VERSION 0

#define MAX_NUM_D11CORES 2

/**DFS Forced param */
typedef struct wl_dfs_forced_params {
    chanspec_t chspec;
    uint16 version;
    chanspec_list_t chspec_list;
} wl_dfs_forced_t;

#define DFS_PREFCHANLIST_VER 0x01
#define WL_CHSPEC_LIST_FIXED_SIZE OFFSETOF(chanspec_list_t, list)
/* size of dfs forced param size given n channels are in the list */
#define WL_DFS_FORCED_PARAMS_SIZE(n)                                           \
    (sizeof(wl_dfs_forced_t) +                                                 \
     (((n) < 1) ? (0) : (((n)-1) * sizeof(chanspec_t))))
#define WL_DFS_FORCED_PARAMS_FIXED_SIZE                                        \
    (WL_CHSPEC_LIST_FIXED_SIZE + OFFSETOF(wl_dfs_forced_t, chspec_list))
#define WL_DFS_FORCED_PARAMS_MAX_SIZE                                          \
    WL_DFS_FORCED_PARAMS_FIXED_SIZE + (WL_NUMCHANNELS * sizeof(chanspec_t))

/**association decision information */
typedef struct {
    uint8 assoc_approved; /**< (re)association approved */
    uint8 pad;
    uint16 reject_reason; /**< reason code for rejecting association */
    struct ether_addr da;
    uint8 pad1[6];
    int64 sys_time; /**< current system time */
} assoc_decision_t;

#define DFS_SCAN_S_IDLE -1
#define DFS_SCAN_S_RADAR_FREE 0
#define DFS_SCAN_S_RADAR_FOUND 1
#define DFS_SCAN_S_INPROGESS 2
#define DFS_SCAN_S_SCAN_ABORTED 3
#define DFS_SCAN_S_SCAN_MODESW_INPROGRESS 4
#define DFS_SCAN_S_MAX 5

#define ACTION_FRAME_SIZE 1800

typedef struct wl_action_frame {
    struct ether_addr da;
    uint16 len;
    uint32 packetId;
    uint8 data[ACTION_FRAME_SIZE];
} wl_action_frame_t;

#define WL_WIFI_ACTION_FRAME_SIZE sizeof(struct wl_action_frame)

typedef struct ssid_info {
    uint8 ssid_len; /**< the length of SSID */
    uint8 ssid[32]; /**< SSID string */
} ssid_info_t;

typedef struct wl_af_params {
    uint32 channel;
    int32 dwell_time;
    struct ether_addr BSSID;
    uint8 PAD[2];
    wl_action_frame_t action_frame;
} wl_af_params_t;

#define WL_WIFI_AF_PARAMS_SIZE sizeof(struct wl_af_params)

#define MFP_TEST_FLAG_NORMAL 0
#define MFP_TEST_FLAG_ANY_KEY 1
typedef struct wl_sa_query {
    uint32 flag;
    uint8 action;
    uint8 PAD;
    uint16 id;
    struct ether_addr da;
    uint16 PAD;
} wl_sa_query_t;

/* EXT_STA */
/**association information */
typedef struct {
    uint32 assoc_req;     /**< offset to association request frame */
    uint32 assoc_req_len; /**< association request frame length */
    uint32 assoc_rsp;     /**< offset to association response frame */
    uint32 assoc_rsp_len; /**< association response frame length */
    uint32 bcn;           /**< offset to AP beacon */
    uint32 bcn_len;       /**< AP beacon length */
    uint32 wsec;          /**< ucast security algo */
    uint32 wpaie;         /**< offset to WPA ie */
    uint8 auth_alg;       /**< 802.11 authentication mode */
    uint8 WPA_auth;       /**< WPA: authenticated key management */
    uint8 ewc_cap;        /**< EWC (MIMO) capable */
    uint8 ofdm;           /**< OFDM */
} assoc_info_t;
/* defined(EXT_STA) */

/* Flags for OBSS IOVAR Parameters */
#define WL_OBSS_DYN_BWSW_FLAG_ACTIVITY_PERIOD (0x01)
#define WL_OBSS_DYN_BWSW_FLAG_NOACTIVITY_PERIOD (0x02)
#define WL_OBSS_DYN_BWSW_FLAG_NOACTIVITY_INCR_PERIOD (0x04)
#define WL_OBSS_DYN_BWSW_FLAG_PSEUDO_SENSE_PERIOD (0x08)
#define WL_OBSS_DYN_BWSW_FLAG_RX_CRS_PERIOD (0x10)
#define WL_OBSS_DYN_BWSW_FLAG_DUR_THRESHOLD (0x20)
#define WL_OBSS_DYN_BWSW_FLAG_TXOP_PERIOD (0x40)

/* OBSS IOVAR Version information */
#define WL_PROT_OBSS_CONFIG_PARAMS_VERSION 1

#include <packed_section_start.h>
typedef BWL_PRE_PACKED_STRUCT struct {
    uint8 obss_bwsw_activity_cfm_count_cfg; /**< configurable count in
                                             * seconds before we confirm that
                                             * OBSS is present and dynamically
                                             * activate dynamic bwswitch.
                                             */
    uint8
        obss_bwsw_no_activity_cfm_count_cfg;        /**< configurable count in
                                                     * seconds before we confirm that
                                                     * OBSS is GONE and        dynamically
                                                     * start pseudo upgrade. If in
                                                     * pseudo sense time, we        will see
                                                     * OBSS, [means that, we false
                                                     * detected that OBSS-is-gone        in
                                                     * watchdog] this count will be
                                                     * incremented in steps of
                                                     * obss_bwsw_no_activity_cfm_count_incr_cfg
                                                     * for confirming OBSS        detection
                                                     * again. Note that, at present,
                                                     * max 30seconds is        allowed like
                                                     * this.
                                                     * [OBSS_BWSW_NO_ACTIVITY_MAX_INCR_DEFAULT]
                                                     */
    uint8 obss_bwsw_no_activity_cfm_count_incr_cfg; /* see above
                                                     */
    uint16 obss_bwsw_pseudo_sense_count_cfg; /**< number of msecs/cnt to be in
                                              * pseudo state. This is used to
                                              * sense/measure the stats from lq.
                                              */
    uint8 obss_bwsw_rx_crs_threshold_cfg;    /**< RX CRS default threshold */
    uint8 obss_bwsw_dur_thres;          /**< OBSS dyn bwsw trigger/RX CRS Sec */
    uint8 obss_bwsw_txop_threshold_cfg; /**< TXOP default threshold */
} BWL_POST_PACKED_STRUCT wlc_obss_dynbwsw_config_t;
#include <packed_section_end.h>

#include <packed_section_start.h>
typedef BWL_PRE_PACKED_STRUCT struct {
    uint32 version; /**< version field */
    uint32 config_mask;
    uint32 reset_mask;
    wlc_obss_dynbwsw_config_t config_params;
} BWL_POST_PACKED_STRUCT obss_config_params_t;
#include <packed_section_end.h>

/**bsscfg type */
typedef enum bsscfg_type {
    BSSCFG_TYPE_GENERIC = 0, /**< Generic AP/STA/IBSS BSS */
    BSSCFG_TYPE_P2P = 1,     /**< P2P BSS */
    /* index 2 earlier used for BTAMP */
    BSSCFG_TYPE_PSTA = 3,
    BSSCFG_TYPE_TDLS = 4,
    BSSCFG_TYPE_SLOTTED_BSS = 5,
    BSSCFG_TYPE_PROXD = 6,
    BSSCFG_TYPE_NAN = 7,
    BSSCFG_TYPE_MESH = 8,
    BSSCFG_TYPE_AIBSS = 9
} bsscfg_type_t;

/* bsscfg subtype */
typedef enum bsscfg_subtype {
    BSSCFG_SUBTYPE_NONE = 0,
    BSSCFG_GENERIC_STA = 1, /* GENERIC */
    BSSCFG_GENERIC_AP = 2,
    BSSCFG_GENERIC_IBSS = 6,
    BSSCFG_P2P_GC = 3, /* P2P */
    BSSCFG_P2P_GO = 4,
    BSSCFG_P2P_DISC = 5,
    /* Index 7 & 8 earlier used for BTAMP */
    BSSCFG_SUBTYPE_AWDL = 9, /* SLOTTED_BSS_TYPE */
    BSSCFG_SUBTYPE_NAN_MGMT = 10,
    BSSCFG_SUBTYPE_NAN_DATA = 11,
    BSSCFG_SUBTYPE_NAN_MGMT_DATA = 12
} bsscfg_subtype_t;

typedef struct wlc_bsscfg_info {
    uint32 type;
    uint32 subtype;
} wlc_bsscfg_info_t;

/* ULP SHM Offsets info */
typedef struct ulp_shm_info {
    uint32 m_ulp_ctrl_sdio;
    uint32 m_ulp_wakeevt_ind;
    uint32 m_ulp_wakeind;
} ulp_shm_info_t;

/* Legacy structure to help keep backward compatible wl tool and tray app */

#define LEGACY_WL_BSS_INFO_VERSION                                             \
    107 /**< older version of wl_bss_info struct */

typedef struct wl_bss_info_107 {
    uint32 version; /**< version field */
    uint32 length;  /**< byte length of data in this record,
                     * starting at version and including IEs
                     */
    struct ether_addr BSSID;
    uint16 beacon_period; /**< units are Kusec */
    uint16 capability;    /**< Capability information */
    uint8 SSID_len;
    uint8 SSID[32];
    uint8 PAD;
    struct {
        uint32 count;    /**< # rates in this set */
        uint8 rates[16]; /**< rates in 500kbps units w/hi bit set if basic */
    } rateset;           /**< supported rates */
    uint8 channel;       /**< Channel no. */
    uint8 PAD;
    uint16 atim_window; /**< units are Kusec */
    uint8 dtim_period;  /**< DTIM period */
    uint8 PAD;
    int16 RSSI;     /**< receive signal strength (in dBm) */
    int8 phy_noise; /**< noise (in dBm) */
    uint8 PAD[3];
    uint32 ie_length; /**< byte length of Information Elements */
                      /* variable length Information Elements */
} wl_bss_info_107_t;

/*
 * Per-BSS information structure.
 */

#define LEGACY2_WL_BSS_INFO_VERSION                                            \
    108 /**< old version of wl_bss_info struct */

/**
 * BSS info structure
 * Applications MUST CHECK ie_offset field and length field to access IEs and
 * next bss_info structure in a vector (in wl_scan_results_t)
 */
typedef struct wl_bss_info_108 {
    uint32 version; /**< version field */
    uint32 length;  /**< byte length of data in this record,
                     * starting at version and including IEs
                     */
    struct ether_addr BSSID;
    uint16 beacon_period; /**< units are Kusec */
    uint16 capability;    /**< Capability information */
    uint8 SSID_len;
    uint8 SSID[32];
    uint8 PAD[1];
    struct {
        uint32 count;    /**< # rates in this set */
        uint8 rates[16]; /**< rates in 500kbps units w/hi bit set if basic */
    } rateset;           /**< supported rates */
    chanspec_t chanspec; /**< chanspec for bss */
    uint16 atim_window;  /**< units are Kusec */
    uint8 dtim_period;   /**< DTIM period */
    uint8 PAD;
    int16 RSSI;     /**< receive signal strength (in dBm) */
    int8 phy_noise; /**< noise (in dBm) */

    uint8 n_cap; /**< BSS is 802.11N Capable */
    uint8 PAD[2];
    uint32 nbss_cap; /**< 802.11N BSS Capabilities (based on HT_CAP_*) */
    uint8 ctl_ch;    /**< 802.11N BSS control channel number */
    uint8 PAD[3];
    uint32 reserved32[1]; /**< Reserved for expansion of BSS properties */
    uint8 flags;          /**< flags */
    uint8 reserved[3];    /**< Reserved for expansion of BSS properties */
    uint8 basic_mcs[MCSSET_LEN]; /**< 802.11N BSS required MCS set */

    uint16 ie_offset; /**< offset at which IEs start, from beginning */
    uint8 PAD[2];
    uint32 ie_length; /**< byte length of Information Elements */
                      /* Add new fields here */
                      /* variable length Information Elements */
} wl_bss_info_108_t;

#define WL_BSS_INFO_VERSION 109 /**< current version of wl_bss_info struct */

/**
 * BSS info structure
 * Applications MUST CHECK ie_offset field and length field to access IEs and
 * next bss_info structure in a vector (in wl_scan_results_t)
 */
typedef struct wl_bss_info {
    uint32 version; /**< version field */
    uint32 length;  /**< byte length of data in this record,
                     * starting at version and including IEs
                     */
    struct ether_addr BSSID;
    uint16 beacon_period; /**< units are Kusec */
    uint16 capability;    /**< Capability information */
    uint8 SSID_len;
    uint8 SSID[32];
    uint8 bcnflags; /* additional flags w.r.t. beacon */
    struct {
        uint32 count;    /**< # rates in this set */
        uint8 rates[16]; /**< rates in 500kbps units w/hi bit set if basic */
    } rateset;           /**< supported rates */
    chanspec_t chanspec; /**< chanspec for bss */
    uint16 atim_window;  /**< units are Kusec */
    uint8 dtim_period;   /**< DTIM period */
    uint8 accessnet;     /* from beacon interwork IE (if bcnflags) */
    int16 RSSI;          /**< receive signal strength (in dBm) */
    int8 phy_noise;      /**< noise (in dBm) */
    uint8 n_cap;         /**< BSS is 802.11N Capable */
    uint16 freespace1;   /* make implicit padding explicit */
    uint32 nbss_cap;     /**< 802.11N+AC BSS Capabilities */
    uint8 ctl_ch;        /**< 802.11N BSS control channel number */
    uint8 padding1[3];   /**< explicit struct alignment padding */
    uint16 vht_rxmcsmap; /**< VHT rx mcs map (802.11ac IE, VHT_CAP_MCS_MAP_*) */
    uint16 vht_txmcsmap; /**< VHT tx mcs map (802.11ac IE, VHT_CAP_MCS_MAP_*) */
    uint8 flags;         /**< flags */
    uint8 vht_cap;       /**< BSS is vht capable */
    uint8 reserved[2];   /**< Reserved for expansion of BSS properties */
    uint8 basic_mcs[MCSSET_LEN]; /**< 802.11N BSS required MCS set */

    uint16 ie_offset;         /**< offset at which IEs start, from beginning */
    uint16 freespace2;        /* making implicit padding explicit */
    uint32 ie_length;         /**< byte length of Information Elements */
    int16 SNR;                /**< average SNR of during frame reception */
    uint16 vht_mcsmap;        /**< STA's Associated vhtmcsmap */
    uint16 vht_mcsmap_prop;   /**< STA's Associated prop vhtmcsmap */
    uint16 vht_txmcsmap_prop; /**< prop VHT tx mcs prop */
} wl_bss_info_v109_t;

/**
 * BSS info structure
 * Applications MUST CHECK ie_offset field and length field to access IEs and
 * next bss_info structure in a vector (in wl_scan_results_t)
 */
typedef struct wl_bss_info_v109_1 {
    uint32 version; /**< version field */
    uint32 length;  /**< byte length of data in this record,
                     * starting at version and including IEs
                     */
    struct ether_addr BSSID;
    uint16 beacon_period; /**< units are Kusec */
    uint16 capability;    /**< Capability information */
    uint8 SSID_len;
    uint8 SSID[32];
    uint8 bcnflags; /* additional flags w.r.t. beacon */
    struct {
        uint32 count;    /**< # rates in this set */
        uint8 rates[16]; /**< rates in 500kbps units w/hi bit set if basic */
    } rateset;           /**< supported rates */
    chanspec_t chanspec; /**< chanspec for bss */
    uint16 atim_window;  /**< units are Kusec */
    uint8 dtim_period;   /**< DTIM period */
    uint8 accessnet;     /* from beacon interwork IE (if bcnflags) */
    int16 RSSI;          /**< receive signal strength (in dBm) */
    int8 phy_noise;      /**< noise (in dBm) */
    uint8 n_cap;         /**< BSS is 802.11N Capable */
    uint8 he_cap;        /**< BSS is he capable */
    uint8 freespace1;    /* make implicit padding explicit */
    uint32 nbss_cap;     /**< 802.11N+AC BSS Capabilities */
    uint8 ctl_ch;        /**< 802.11N BSS control channel number */
    uint8 padding1[3];   /**< explicit struct alignment padding */
    uint16 vht_rxmcsmap; /**< VHT rx mcs map (802.11ac IE, VHT_CAP_MCS_MAP_*) */
    uint16 vht_txmcsmap; /**< VHT tx mcs map (802.11ac IE, VHT_CAP_MCS_MAP_*) */
    uint8 flags;         /**< flags */
    uint8 vht_cap;       /**< BSS is vht capable */
    uint8 reserved[2];   /**< Reserved for expansion of BSS properties */
    uint8 basic_mcs[MCSSET_LEN]; /**< 802.11N BSS required MCS set */

    uint16 ie_offset;         /**< offset at which IEs start, from beginning */
    uint16 freespace2;        /* making implicit padding explicit */
    uint32 ie_length;         /**< byte length of Information Elements */
    int16 SNR;                /**< average SNR of during frame reception */
    uint16 vht_mcsmap;        /**< STA's Associated vhtmcsmap */
    uint16 vht_mcsmap_prop;   /**< STA's Associated prop vhtmcsmap */
    uint16 vht_txmcsmap_prop; /**< prop VHT tx mcs prop */
    uint32 he_mcsmap;         /**< STA's Associated hemcsmap */
    uint32 he_rxmcsmap; /**< HE rx mcs map (802.11ax IE, HE_CAP_MCS_MAP_*) */
    uint32 he_txmcsmap; /**< HE tx mcs map (802.11ax IE, HE_CAP_MCS_MAP_*) */
} wl_bss_info_v109_1_t;

/**
 * BSS info structure
 * Applications MUST CHECK ie_offset field and length field to access IEs and
 * next bss_info structure in a vector (in wl_scan_results_t)
 */
typedef struct wl_bss_info_v109_2 {
    uint32 version; /**< version field */
    uint32 length;  /**< byte length of data in this record,
                     * starting at version and including IEs
                     */
    struct ether_addr BSSID;
    uint16 beacon_period; /**< units are Kusec */
    uint16 capability;    /**< Capability information */
    uint8 SSID_len;
    uint8 SSID[32];
    uint8 bcnflags; /* additional flags w.r.t. beacon */
    struct {
        uint32 count;    /**< # rates in this set */
        uint8 rates[16]; /**< rates in 500kbps units w/hi bit set if basic */
    } rateset;           /**< supported rates */
    chanspec_t chanspec; /**< chanspec for bss */
    uint16 atim_window;  /**< units are Kusec */
    uint8 dtim_period;   /**< DTIM period */
    uint8 accessnet;     /* from beacon interwork IE (if bcnflags) */
    int16 RSSI;          /**< receive signal strength (in dBm) */
    int8 phy_noise;      /**< noise (in dBm) */
    uint8 n_cap;         /**< BSS is 802.11N Capable */
    uint8 he_cap;        /**< BSS is he capable */
    uint8 freespace1;    /* make implicit padding explicit */
    uint32 nbss_cap;     /**< 802.11N+AC BSS Capabilities */
    uint8 ctl_ch;        /**< 802.11N BSS control channel number */
    uint8 padding1[3];   /**< explicit struct alignment padding */
    uint16 vht_rxmcsmap; /**< VHT rx mcs map (802.11ac IE, VHT_CAP_MCS_MAP_*) */
    uint16 vht_txmcsmap; /**< VHT tx mcs map (802.11ac IE, VHT_CAP_MCS_MAP_*) */
    uint8 flags;         /**< flags */
    uint8 vht_cap;       /**< BSS is vht capable */
    uint8 reserved[2];   /**< Reserved for expansion of BSS properties */
    uint8 basic_mcs[MCSSET_LEN]; /**< 802.11N BSS required MCS set */

    uint16 ie_offset;         /**< offset at which IEs start, from beginning */
    uint16 freespace2;        /* making implicit padding explicit */
    uint32 ie_length;         /**< byte length of Information Elements */
    int16 SNR;                /**< average SNR of during frame reception */
    uint16 vht_mcsmap;        /**< STA's Associated vhtmcsmap */
    uint16 vht_mcsmap_prop;   /**< STA's Associated prop vhtmcsmap */
    uint16 vht_txmcsmap_prop; /**< prop VHT tx mcs prop */
    uint32 he_mcsmap;         /**< STA's Associated hemcsmap */
    uint32 he_rxmcsmap;  /**< HE rx mcs map (802.11ax IE, HE_CAP_MCS_MAP_*) */
    uint32 he_txmcsmap;  /**< HE tx mcs map (802.11ax IE, HE_CAP_MCS_MAP_*) */
    uint32 timestamp[2]; /* Beacon Timestamp for FAKEAP req */
} wl_bss_info_v109_2_t;

#ifndef WL_BSS_INFO_TYPEDEF_HAS_ALIAS
typedef wl_bss_info_v109_t wl_bss_info_t;
#endif // endif

#define WL_GSCAN_FULL_RESULT_VERSION                                           \
    2 /* current version of wl_gscan_result_t struct */

typedef struct wl_gscan_bss_info {
    uint32 timestamp[2];
    wl_bss_info_v109_t info;
    /* Do not add any more members below, fixed  */
    /* and variable length Information Elements to follow */
} wl_gscan_bss_info_v2_t;

typedef struct wl_gscan_bss_info_v3 {
    uint32 timestamp[2];
    uint8 info[]; /* var length wl_bss_info_X structures */
                  /* Do not add any more members below, fixed  */
                  /* and variable length Information Elements to follow */
} wl_gscan_bss_info_v3_t;

#ifndef WL_BSS_INFO_TYPEDEF_HAS_ALIAS
typedef wl_gscan_bss_info_v2_t wl_gscan_bss_info_t;
#define WL_GSCAN_INFO_FIXED_FIELD_SIZE                                         \
    (sizeof(wl_gscan_bss_info_t) - sizeof(wl_bss_info_t))
#endif // endif

typedef struct wl_bsscfg {
    uint32 bsscfg_idx;
    uint32 wsec;
    uint32 WPA_auth;
    uint32 wsec_index;
    uint32 associated;
    uint32 BSS;
    uint32 phytest_on;
    struct ether_addr prev_BSSID;
    struct ether_addr BSSID;
    uint32 targetbss_wpa2_flags;
    uint32 assoc_type;
    uint32 assoc_state;
} wl_bsscfg_t;

typedef struct wl_if_add {
    uint32 bsscfg_flags;
    uint32 if_flags;
    uint32 ap;
    struct ether_addr mac_addr;
    uint16 PAD;
    uint32 wlc_index;
} wl_if_add_t;

typedef struct wl_bss_config {
    uint32 atim_window;
    uint32 beacon_period;
    uint32 chanspec;
} wl_bss_config_t;

/* Number of Bsscolor supported per core */
#ifndef HE_MAX_BSSCOLOR_RES
#define HE_MAX_BSSCOLOR_RES 2
#endif // endif

#ifndef HE_MAX_STAID_PER_BSSCOLOR
#define HE_MAX_STAID_PER_BSSCOLOR 4
#endif // endif

/* BSSColor indices */
#define BSSCOLOR0_IDX 0
#define BSSCOLOR1_IDX 1
#define HE_BSSCOLOR0 0
#define HE_BSSCOLOR_MAX_VAL 63

/* STAID indices */
#define STAID0_IDX 0
#define STAID1_IDX 1
#define STAID2_IDX 2
#define STAID3_IDX 3
#define HE_STAID_MAX_VAL 0x07FF

typedef struct wl_bsscolor_info {
    uint16 version;       /**< structure version */
    uint16 length;        /**< length of the bsscolor info */
    uint8 bsscolor_index; /**< bsscolor index 0-1 */
    uint8 bsscolor;       /**<bsscolor value from 0 to 63 */
    uint8 partial_bsscolor_ind;
    uint8 disable_bsscolor_ind; /**< To disable particular bsscolor */
    /* bsscolor_disable to be added as part of D1.0 */
    uint16 staid_info[HE_MAX_STAID_PER_BSSCOLOR]; /**< 0-3 staid info of each
                                                     bsscolor */
} wl_bsscolor_info_t;

#define WL_BSS_USER_RADAR_CHAN_SELECT                                          \
    0x1 /**< User application will randomly select                             \
         * radar channel.                                                      \
         */

#define DLOAD_HANDLER_VER 1        /**< Downloader version */
#define DLOAD_FLAG_VER_MASK 0xf000 /**< Downloader version mask */
#define DLOAD_FLAG_VER_SHIFT 12    /**< Downloader version shift */

#define DL_CRC_NOT_INUSE 0x0001
#define DL_BEGIN 0x0002
#define DL_END 0x0004

/* Flags for Major/Minor/Date number shift and mask */
#define EPI_VER_SHIFT 16
#define EPI_VER_MASK 0xFFFF
/** generic download types & flags */
enum { DL_TYPE_UCODE = 1, DL_TYPE_CLM = 2 };

/** ucode type values */
enum { UCODE_FW, INIT_VALS, BS_INIT_VALS };

struct wl_dload_data {
    uint16 flag;
    uint16 dload_type;
    uint32 len;
    uint32 crc;
    uint8 data[1];
};
typedef struct wl_dload_data wl_dload_data_t;

struct wl_ucode_info {
    uint32 ucode_type;
    uint32 num_chunks;
    uint32 chunk_len;
    uint32 chunk_num;
    uint8 data_chunk[1];
};
typedef struct wl_ucode_info wl_ucode_info_t;

struct wl_clm_dload_info {
    uint32 ds_id;
    uint32 clm_total_len;
    uint32 num_chunks;
    uint32 chunk_len;
    uint32 chunk_offset;
    uint8 data_chunk[1];
};
typedef struct wl_clm_dload_info wl_clm_dload_info_t;

typedef struct wlc_ssid {
    uint32 SSID_len;
    uint8 SSID[DOT11_MAX_SSID_LEN];
} wlc_ssid_t;

typedef struct wlc_ssid_ext {
    uint8 hidden;
    uint8 PAD;
    uint16 flags;
    uint8 SSID_len;
    int8 rssi_thresh;
    uint8 SSID[DOT11_MAX_SSID_LEN];
} wlc_ssid_ext_t;

#define MAX_PREFERRED_AP_NUM 5
typedef struct wlc_fastssidinfo {
    uint32 SSID_channel[MAX_PREFERRED_AP_NUM];
    wlc_ssid_t SSID_info[MAX_PREFERRED_AP_NUM];
} wlc_fastssidinfo_t;

typedef struct wnm_url {
    uint8 len;
    uint8 data[1];
} wnm_url_t;

typedef struct chan_scandata {
    uint8 txpower;
    uint8 pad;
    chanspec_t channel; /**< Channel num, bw, ctrl_sb and band */
    uint32 channel_mintime;
    uint32 channel_maxtime;
} chan_scandata_t;

typedef enum wl_scan_type {
    EXTDSCAN_FOREGROUND_SCAN,
    EXTDSCAN_BACKGROUND_SCAN,
    EXTDSCAN_FORCEDBACKGROUND_SCAN
} wl_scan_type_t;

#define WLC_EXTDSCAN_MAX_SSID 5

typedef struct wl_extdscan_params {
    int8 nprobes;    /**< 0, passive, otherwise active */
    int8 split_scan; /**< split scan */
    int8 band;       /**< band */
    int8 pad;
    wlc_ssid_t ssid[WLC_EXTDSCAN_MAX_SSID]; /**< ssid list */
    uint32 tx_rate;                         /**< in 500ksec units */
    wl_scan_type_t scan_type;               /**< enum */
    int32 channel_num;
    chan_scandata_t channel_list[1]; /**< list of chandata structs */
} wl_extdscan_params_t;

#define WL_EXTDSCAN_PARAMS_FIXED_SIZE                                          \
    (sizeof(wl_extdscan_params_t) - sizeof(chan_scandata_t))

#define WL_SCAN_PARAMS_SSID_MAX 10

struct wl_scan_params {
    wlc_ssid_t ssid;         /**< default: {0, ""} */
    struct ether_addr bssid; /**< default: bcast */
    int8 bss_type;           /**< default: any,
                              * DOT11_BSSTYPE_ANY/INFRASTRUCTURE/INDEPENDENT
                              */
    uint8 scan_type;         /**< flags, 0 use default */
    int32 nprobes;          /**< -1 use default, number of probes per channel */
    int32 active_time;      /**< -1 use default, dwell time per channel for
                             * active scanning
                             */
    int32 passive_time;     /**< -1 use default, dwell time per channel
                             * for passive scanning
                             */
    int32 home_time;        /**< -1 use default, dwell time for the home channel
                             * between channel scans
                             */
    int32 channel_num;      /**< count of channels and ssids that follow
                             *
                             * low half is count of channels in channel_list, 0
                             * means default (use all available channels)
                             *
                             * high half is entries in wlc_ssid_t array that
                             * follows channel_list, aligned for int32 (4 bytes)
                             * meaning an odd channel count implies a 2-byte pad
                             * between end of channel_list and first ssid
                             *
                             * if ssid count is zero, single ssid in the fixed
                             * parameter portion is assumed, otherwise ssid in
                             * the fixed portion is ignored
                             */
    uint16 channel_list[1]; /**< list of chanspecs */
};

/* changes in wl_scan_params_v2 as comapred to wl_scan_params (v1)
 * unit8 scantype to uint32
 */
typedef struct wl_scan_params_v2 {
    uint16 version;          /* Version of wl_scan_params, change value of
                              * WL_SCAN_PARAM_VERSION on version update
                              */
    uint16 length;           /* length of structure wl_scan_params_v1_t
                              * without implicit pad
                              */
    wlc_ssid_t ssid;         /**< default: {0, ""} */
    struct ether_addr bssid; /**< default: bcast */
    int8 bss_type;           /**< default: any,
                              * DOT11_BSSTYPE_ANY/INFRASTRUCTURE/INDEPENDENT
                              */
    uint8 PAD;
    uint32 scan_type;       /**< flags, 0 use default, and flags specified in
                             * WL_SCANFLAGS_XXX
                             */
    int32 nprobes;          /**< -1 use default, number of probes per channel */
    int32 active_time;      /**< -1 use default, dwell time per channel for
                             * active scanning
                             */
    int32 passive_time;     /**< -1 use default, dwell time per channel
                             * for passive scanning
                             */
    int32 home_time;        /**< -1 use default, dwell time for the home channel
                             * between channel scans
                             */
    int32 channel_num;      /**< count of channels and ssids that follow
                             *
                             * low half is count of channels in channel_list, 0
                             * means default (use all available channels)
                             *
                             * high half is entries in wlc_ssid_t array that
                             * follows channel_list, aligned for int32 (4 bytes)
                             * meaning an odd channel count implies a 2-byte pad
                             * between end of channel_list and first ssid
                             *
                             * if ssid count is zero, single ssid in the fixed
                             * parameter portion is assumed, otherwise ssid in
                             * the fixed portion is ignored
                             */
    uint16 channel_list[1]; /**< list of chanspecs */
} wl_scan_params_v2_t;

#define WL_SCAN_PARAMS_VERSION_V2 2

/** size of wl_scan_params not including variable length array */
#define WL_SCAN_PARAMS_V2_FIXED_SIZE                                           \
    (OFFSETOF(wl_scan_params_v2_t, channel_list))
#define WL_MAX_ROAMSCAN_DATSZ                                                  \
    (WL_SCAN_PARAMS_FIXED_SIZE + (WL_NUMCHANNELS * sizeof(uint16)))
#define WL_MAX_ROAMSCAN_V2_DATSZ                                               \
    (WL_SCAN_PARAMS_V2_FIXED_SIZE + (WL_NUMCHANNELS * sizeof(uint16)))

#define ISCAN_REQ_VERSION 1
#define ISCAN_REQ_VERSION_V2 2

/** incremental scan struct */
struct wl_iscan_params {
    uint32 version;
    uint16 action;
    uint16 scan_duration;
    struct wl_scan_params params;
};

/** incremental scan struct */
typedef struct wl_iscan_params_v2 {
    uint32 version;
    uint16 action;
    uint16 scan_duration;
    wl_scan_params_v2_t params;
} wl_iscan_params_v2_t;

/** 3 fields + size of wl_scan_params, not including variable length array */
#define WL_ISCAN_PARAMS_FIXED_SIZE                                             \
    (OFFSETOF(wl_iscan_params_t, params) + sizeof(wlc_ssid_t))
#define WL_ISCAN_PARAMS_V2_FIXED_SIZE                                          \
    (OFFSETOF(wl_iscan_params_v2_t, params) + sizeof(wlc_ssid_t))

typedef struct wl_scan_results {
    uint32 buflen;
    uint32 version;
    uint32 count;
    wl_bss_info_v109_t bss_info[1];
} wl_scan_results_v109_t;

typedef struct wl_scan_results_v2 {
    uint32 buflen;
    uint32 version;
    uint32 count;
    uint8 bss_info[]; /* var length wl_bss_info_X structures */
} wl_scan_results_v2_t;

#ifndef WL_BSS_INFO_TYPEDEF_HAS_ALIAS
typedef wl_scan_results_v109_t wl_scan_results_t;
/** size of wl_scan_results not including variable length array */
#define WL_SCAN_RESULTS_FIXED_SIZE                                             \
    (sizeof(wl_scan_results_t) - sizeof(wl_bss_info_t))
#endif // endif

#if defined(SIMPLE_ISCAN)
/** the buf lengh can be WLC_IOCTL_MAXLEN (8K) to reduce iteration */
#define WLC_IW_ISCAN_MAXLEN 2048
typedef struct iscan_buf {
    struct iscan_buf *next;
    int8 iscan_buf[WLC_IW_ISCAN_MAXLEN];
} iscan_buf_t;
#endif /* SIMPLE_ISCAN */
#define ESCAN_REQ_VERSION 1
#define ESCAN_REQ_VERSION_V2 2

/** event scan reduces amount of SOC memory needed to store scan results */
struct wl_escan_params {
    uint32 version;
    uint16 action;
    uint16 sync_id;
    struct wl_scan_params params;
};

typedef struct wl_escan_params_v2 {
    uint32 version;
    uint16 action;
    uint16 sync_id;
    wl_scan_params_v2_t params;
} wl_escan_params_v2_t;

#define WL_ESCAN_PARAMS_FIXED_SIZE                                             \
    (OFFSETOF(wl_escan_params_t, params) + sizeof(wlc_ssid_t))
#define WL_ESCAN_PARAMS_V2_FIXED_SIZE                                          \
    (OFFSETOF(wl_escan_params_v2_t, params) + sizeof(wlc_ssid_t))

/* New scan version is defined then change old version of scan to
 * wl_scan_params_v1_t and new one to wl_scan_params_t
 */
#ifdef WL_SCAN_PARAMS_V2
typedef struct wl_scan_params wl_scan_params_v1_t;
typedef struct wl_escan_params wl_escan_params_v1_t;
typedef struct wl_iscan_params wl_iscan_params_v1_t;
typedef struct wl_scan_params_v2 wl_scan_params_t;
typedef struct wl_escan_params_v2 wl_escan_params_t;
typedef struct wl_iscan_params_v2 wl_iscan_params_t;
#define WL_SCAN_PARAMS_FIXED_SIZE (OFFSETOF(wl_scan_params_t, channel_list))
#else
typedef struct wl_scan_params wl_scan_params_t;
typedef struct wl_escan_params wl_escan_params_t;
typedef struct wl_iscan_params wl_iscan_params_t;
#define WL_SCAN_PARAMS_FIXED_SIZE 64
#endif // endif

/** event scan reduces amount of SOC memory needed to store scan results */
typedef struct wl_escan_result {
    uint32 buflen;
    uint32 version;
    uint16 sync_id;
    uint16 bss_count;
    wl_bss_info_v109_t bss_info[1];
} wl_escan_result_v109_t;

/** event scan reduces amount of SOC memory needed to store scan results */
typedef struct wl_escan_result_v2 {
    uint32 buflen;
    uint32 version;
    uint16 sync_id;
    uint16 bss_count;
    uint8 bss_info[]; /* var length wl_bss_info_X structures */
} wl_escan_result_v2_t;

#ifndef WL_BSS_INFO_TYPEDEF_HAS_ALIAS
typedef wl_escan_result_v109_t wl_escan_result_t;
#define WL_ESCAN_RESULTS_FIXED_SIZE                                            \
    (sizeof(wl_escan_result_t) - sizeof(wl_bss_info_t))
#endif // endif

typedef struct wl_gscan_result {
    uint32 buflen;
    uint32 version;
    uint32 scan_ch_bucket;
    wl_gscan_bss_info_v2_t bss_info[1];
} wl_gscan_result_v2_t;

typedef struct wl_gscan_result_v2_1 {
    uint32 buflen;
    uint32 version;
    uint32 scan_ch_bucket;
    uint8 bss_info[]; /* var length wl_bss_info_X structures */
} wl_gscan_result_v2_1_t;

#ifndef WL_BSS_INFO_TYPEDEF_HAS_ALIAS
typedef wl_gscan_result_v2_t wl_gscan_result_t;
#define WL_GSCAN_RESULTS_FIXED_SIZE                                            \
    (sizeof(wl_gscan_result_t) - sizeof(wl_gscan_bss_info_t))
#endif // endif

/** incremental scan results struct */
typedef struct wl_iscan_results {
    uint32 status;
    wl_scan_results_v109_t results;
} wl_iscan_results_v109_t;

/** incremental scan results struct */
typedef struct wl_iscan_results_v2 {
    uint32 status;
    wl_scan_results_v2_t results;
} wl_iscan_results_v2_t;

#ifndef WL_BSS_INFO_TYPEDEF_HAS_ALIAS
typedef wl_iscan_results_v109_t wl_iscan_results_t;
/** size of wl_iscan_results not including variable length array */
#define WL_ISCAN_RESULTS_FIXED_SIZE                                            \
    (WL_SCAN_RESULTS_FIXED_SIZE + OFFSETOF(wl_iscan_results_t, results))
#endif // endif

typedef struct wl_probe_params {
    wlc_ssid_t ssid;
    struct ether_addr bssid;
    struct ether_addr mac;
} wl_probe_params_t;

#define WL_MAXRATES_IN_SET 16 /**< max # of rates in a rateset */

typedef struct wl_rateset {
    uint32 count;                    /**< # rates in this set */
    uint8 rates[WL_MAXRATES_IN_SET]; /**< rates in 500kbps units w/hi bit set if
                                        basic */
} wl_rateset_t;

#define WL_VHT_CAP_MCS_MAP_NSS_MAX 8

typedef struct wl_rateset_args_v1 {
    uint32 count;                    /**< # rates in this set */
    uint8 rates[WL_MAXRATES_IN_SET]; /**< rates in 500kbps units w/hi bit set if
                                        basic */
    uint8 mcs[MCSSET_LEN];           /**< supported mcs index bit map */
    uint16 vht_mcs[WL_VHT_CAP_MCS_MAP_NSS_MAX]; /**< supported mcs index bit map
                                                   per nss */
} wl_rateset_args_v1_t;

#define RATESET_ARGS_V1 (1)
#define RATESET_ARGS_V2 (2)

/* RATESET_VERSION_ENABLED is defined in wl.mk post J branch.
 * Guidelines to use wl_rateset_args_t:
 * [a] in wlioctl.h: Add macro RATESET_ARGS_VX where X is the new version
 * number. [b] in wlioctl.h: Add a new structure with wl_rateset_args_vX_t [c] in
 * wlu.c app: Add support to parse new structure under RATESET_ARGS_VX [d] in
 * wlc_types.h: in respective branch and trunk: redefine wl_rateset_args_t with
 *	new wl_rateset_args_vX_t
 */
#ifndef RATESET_VERSION_ENABLED
/* rateset structure before versioning. legacy. DONOT update anymore here */
#define RATESET_ARGS_VERSION (RATESET_ARGS_V1)
typedef wl_rateset_args_v1_t wl_rateset_args_t;
#endif /* RATESET_VERSION_ENABLED */

/* Note: dependent structures: sta_info_vX_t. When any update to this structure
 * happens, update sta_info_vX_t also.
 */
#define WL_HE_CAP_MCS_MAP_NSS_MAX 8

typedef struct wl_rateset_args_v2 {
    uint16 version;                  /**< version. */
    uint16 len;                      /**< length */
    uint32 count;                    /**< # rates in this set */
    uint8 rates[WL_MAXRATES_IN_SET]; /**< rates in 500kbps units w/hi bit set if
                                        basic */
    uint8 mcs[MCSSET_LEN];           /**< supported mcs index bit map */
    uint16 vht_mcs[WL_VHT_CAP_MCS_MAP_NSS_MAX]; /**< supported mcs index bit map
                                                   per nss */
    uint16 he_mcs[WL_HE_CAP_MCS_MAP_NSS_MAX];   /**< supported he mcs index bit
                                                   map per nss */
} wl_rateset_args_v2_t;

/* HE Rates BITMAP */
#define WL_HE_CAP_MCS_0_7_MAP 0x00ff
#define WL_HE_CAP_MCS_0_8_MAP 0x01ff
#define WL_HE_CAP_MCS_0_9_MAP 0x03ff
#define WL_HE_CAP_MCS_0_10_MAP 0x07ff
#define WL_HE_CAP_MCS_0_11_MAP 0x0fff

#define TXBF_RATE_MCS_ALL 4
#define TXBF_RATE_VHT_ALL 4
#define TXBF_RATE_OFDM_ALL 8

typedef struct wl_txbf_rateset {
    uint8 txbf_rate_mcs[TXBF_RATE_MCS_ALL];       /**< one for each stream */
    uint8 txbf_rate_mcs_bcm[TXBF_RATE_MCS_ALL];   /**< one for each stream */
    uint16 txbf_rate_vht[TXBF_RATE_VHT_ALL];      /**< one for each stream */
    uint16 txbf_rate_vht_bcm[TXBF_RATE_VHT_ALL];  /**< one for each stream */
    uint8 txbf_rate_ofdm[TXBF_RATE_OFDM_ALL];     /**< bitmap of ofdm rates that
                                                     enables txbf */
    uint8 txbf_rate_ofdm_bcm[TXBF_RATE_OFDM_ALL]; /* bitmap of ofdm rates that
                                                     enables txbf */
    uint8 txbf_rate_ofdm_cnt;
    uint8 txbf_rate_ofdm_cnt_bcm;
} wl_txbf_rateset_t;

#define NUM_BFGAIN_ARRAY_1RX 2
#define NUM_BFGAIN_ARRAY_2RX 3
#define NUM_BFGAIN_ARRAY_3RX 4
#define NUM_BFGAIN_ARRAY_4RX 5

typedef struct wl_txbf_expgainset {
    /* bitmap for each element: B[4:0]=>c0, B[9:5]=>c1, B[14:10]=>c2,
     * B[19:15]=>c[3-7] B[24:20]=>c[8-9], B[29:25]=>c[10-11]
     */
    uint32 bfgain_2x1[NUM_BFGAIN_ARRAY_1RX]; /* exp     1ss, imp 1ss */
    uint32 bfgain_2x2[NUM_BFGAIN_ARRAY_2RX]; /* exp [1-2]ss, imp 1ss */
    uint32 bfgain_3x1[NUM_BFGAIN_ARRAY_1RX];
    uint32 bfgain_3x2[NUM_BFGAIN_ARRAY_2RX];
    uint32 bfgain_3x3[NUM_BFGAIN_ARRAY_3RX]; /* exp [1-3]ss, imp 1ss */
    uint32 bfgain_4x1[NUM_BFGAIN_ARRAY_1RX];
    uint32 bfgain_4x2[NUM_BFGAIN_ARRAY_2RX];
    uint32 bfgain_4x3[NUM_BFGAIN_ARRAY_3RX];
    uint32 bfgain_4x4[NUM_BFGAIN_ARRAY_4RX]; /* exp [1-4]ss, imp 1ss */
} wl_txbf_expgainset_t;

#define OFDM_RATE_MASK 0x0000007f
typedef uint8 ofdm_rates_t;

typedef struct wl_rates_info {
    wl_rateset_t rs_tgt;
    uint32 phy_type;
    int32 bandtype;
    uint8 cck_only;
    uint8 rate_mask;
    uint8 mcsallow;
    uint8 bw;
    uint8 txstreams;
    uint8 PAD[3];
} wl_rates_info_t;

/**uint32 list */
typedef struct wl_uint32_list {
    /** in - # of elements, out - # of entries */
    uint32 count;
    /** variable length uint32 list */
    uint32 element[1];
} wl_uint32_list_t;

/* WLC_SET_ALLOW_MODE values */
#define ALLOW_MODE_ANY_BSSID 0
#define ALLOW_MODE_ONLY_DESIRED_BSSID 1
#define ALLOW_MODE_NO_BSSID 2

/** used for association with a specific BSSID and chanspec list */
typedef struct wl_assoc_params {
    struct ether_addr bssid;     /**< 00:00:00:00:00:00: broadcast scan */
    uint16 bssid_cnt;            /**< 0: use chanspec_num, and the single bssid,
                                  * otherwise count of chanspecs in chanspec_list
                                  * AND paired bssids following chanspec_list
                                  * also, chanspec_num has to be set to zero
                                  * for bssid list to be used
                                  */
    int32 chanspec_num;          /**< 0: all available channels,
                                  * otherwise count of chanspecs in chanspec_list
                                  */
    chanspec_t chanspec_list[1]; /**< list of chanspecs */
} wl_assoc_params_t;

#define WL_ASSOC_PARAMS_FIXED_SIZE OFFSETOF(wl_assoc_params_t, chanspec_list)

/** used for reassociation/roam to a specific BSSID and channel */
typedef wl_assoc_params_t wl_reassoc_params_t;
#define WL_REASSOC_PARAMS_FIXED_SIZE WL_ASSOC_PARAMS_FIXED_SIZE

/** used for association to a specific BSSID and channel */
typedef wl_assoc_params_t wl_join_assoc_params_t;
#define WL_JOIN_ASSOC_PARAMS_FIXED_SIZE WL_ASSOC_PARAMS_FIXED_SIZE

/** used for join with or without a specific bssid and channel list */
typedef struct wl_join_params {
    wlc_ssid_t ssid;
    wl_assoc_params_t
        params; /**< optional field, but it must include the fixed portion
                 * of the wl_assoc_params_t struct when it does present.
                 */
} wl_join_params_t;

#define WL_JOIN_PARAMS_FIXED_SIZE                                              \
    (OFFSETOF(wl_join_params_t, params) + WL_ASSOC_PARAMS_FIXED_SIZE)

typedef struct wlc_roam_exp_params {
    int8 a_band_boost_threshold;
    int8 a_band_penalty_threshold;
    int8 a_band_boost_factor;
    int8 a_band_penalty_factor;
    int8 cur_bssid_boost;
    int8 alert_roam_trigger_threshold;
    int16 a_band_max_boost;
} wlc_roam_exp_params_t;

#define ROAM_EXP_CFG_VERSION 1

#define ROAM_EXP_ENABLE_FLAG (1 << 0)

#define ROAM_EXP_CFG_PRESENT (1 << 1)

typedef struct wl_roam_exp_cfg {
    uint16 version;
    uint16 flags;
    wlc_roam_exp_params_t params;
} wl_roam_exp_cfg_t;

typedef struct wl_bssid_pref_list {
    struct ether_addr bssid;
    /* Add this to modify rssi */
    int8 rssi_factor;
    int8 flags;
} wl_bssid_pref_list_t;

#define BSSID_PREF_LIST_VERSION 1
#define ROAM_EXP_CLEAR_BSSID_PREF (1 << 0)

typedef struct wl_bssid_pref_cfg {
    uint16 version;
    uint16 flags;
    uint16 count;
    uint16 reserved;
    wl_bssid_pref_list_t bssids[];
} wl_bssid_pref_cfg_t;

#define SSID_WHITELIST_VERSION 1

#define ROAM_EXP_CLEAR_SSID_WHITELIST (1 << 0)

/* Roam SSID whitelist, ssids in this list are ok to  */
/* be considered as targets to join when considering a roam */

typedef struct wl_ssid_whitelist {
    uint16 version;
    uint16 flags;

    uint8 ssid_count;
    uint8 reserved[3];
    wlc_ssid_t ssids[];
} wl_ssid_whitelist_t;

#define ROAM_EXP_EVENT_VERSION 1

typedef struct wl_roam_exp_event {
    uint16 version;
    uint16 flags;
    wlc_ssid_t cur_ssid;
} wl_roam_exp_event_t;

/** scan params for extended join */
typedef struct wl_join_scan_params {
    uint8 scan_type; /**< 0 use default, active or passive scan */
    uint8 PAD[3];
    int32 nprobes;      /**< -1 use default, number of probes per channel */
    int32 active_time;  /**< -1 use default, dwell time per channel for
                         * active scanning
                         */
    int32 passive_time; /**< -1 use default, dwell time per channel
                         * for passive scanning
                         */
    int32 home_time;    /**< -1 use default, dwell time for the home channel
                         * between channel scans
                         */
} wl_join_scan_params_t;

/** extended join params */
typedef struct wl_extjoin_params {
    wlc_ssid_t ssid; /**< {0, ""}: wildcard scan */
    wl_join_scan_params_t scan;
    wl_join_assoc_params_t assoc; /**< optional field, but it must include the
                                   * fixed portion of the wl_join_assoc_params_t
                                   * struct when it does present.
                                   */
} wl_extjoin_params_t;
#define WL_EXTJOIN_PARAMS_FIXED_SIZE                                           \
    (OFFSETOF(wl_extjoin_params_t, assoc) + WL_JOIN_ASSOC_PARAMS_FIXED_SIZE)

#define ANT_SELCFG_MAX 4        /**< max number of antenna configurations */
#define MAX_STREAMS_SUPPORTED 4 /**< max number of streams supported */
typedef struct {
    uint8 ant_config[ANT_SELCFG_MAX]; /**< antenna configuration */
    uint8 num_antcfg; /**< number of available antenna configurations */
} wlc_antselcfg_t;

typedef struct {
    uint32 duration; /**< millisecs spent sampling this channel */
    union {
        uint32 congest_ibss; /**< millisecs in our bss (presumably this traffic
                                will */
                             /**<  move if cur bss moves channels) */
        uint32 congest_me;   /**< millisecs in my own traffic */
    };
    union {
        uint32 congest_obss;  /**< traffic not in our bss */
        uint32 congest_notme; /**< traffic not from/to me (including bc/mc) */
    };
    uint32 interference; /**< millisecs detecting a non 802.11 interferer. */
    uint32 timestamp;    /**< second timestamp */
} cca_congest_t;

typedef struct {
    chanspec_t chanspec;   /**< Which channel? */
    uint16 num_secs;       /**< How many secs worth of data */
    cca_congest_t secs[1]; /**< Data */
} cca_congest_channel_req_t;

typedef struct {
    uint32 timestamp; /**< second timestamp */

    /* Base structure of cca_congest_t: CCA statistics all inclusive */
    uint32 duration;       /**< millisecs spent sampling this channel */
    uint32 congest_meonly; /**< millisecs in my own traffic (TX + RX) */
    uint32
        congest_ibss; /**< millisecs in our bss (presumably this traffic will */
    /**<  move if cur bss moves channels) */
    uint32 congest_obss; /**< traffic not in our bss */
    uint32 interference; /**< millisecs detecting a non 802.11 interferer. */

    /* CCA statistics for non PM only */
    uint32 duration_nopm;       /**< millisecs spent sampling this channel */
    uint32 congest_meonly_nopm; /**< millisecs in my own traffic (TX + RX) */
    uint32 congest_ibss_nopm; /**< millisecs in our bss (presumably this traffic
                                 will */
    /**<  move if cur bss moves channels) */
    uint32 congest_obss_nopm; /**< traffic not in our bss */
    uint32
        interference_nopm; /**< millisecs detecting a non 802.11 interferer. */

    /* CCA statistics for during PM only */
    uint32 duration_pm;       /**< millisecs spent sampling this channel */
    uint32 congest_meonly_pm; /**< millisecs in my own traffic (TX + RX) */
    uint32 congest_ibss_pm;   /**< millisecs in our bss (presumably this traffic
                                 will */
    /**<  move if cur bss moves channels) */
    uint32 congest_obss_pm; /**< traffic not in our bss */
    uint32 interference_pm; /**< millisecs detecting a non 802.11 interferer. */
} cca_congest_ext_t;

#define WL_CCA_EXT_REQ_VER 0
typedef struct {
    uint16 ver;                /**< version of this struct */
    uint16 len;                /**< len of this structure */
    chanspec_t chanspec;       /**< Which channel? */
    uint16 num_secs;           /**< How many secs worth of data */
    cca_congest_ext_t secs[1]; /**< Data - 3 sets for ALL - non-PM - PM */
} cca_congest_ext_channel_req_t;

typedef struct {
    uint32 duration;  /**< millisecs spent sampling this channel */
    uint32 congest;   /**< millisecs detecting busy CCA */
    uint32 timestamp; /**< second timestamp */
} cca_congest_simple_t;

/* The following two structure must have same first 4 fields.
 * The cca_chan_qual_event_t is used to report CCA in older formats and NF.
 * The cca_only_chan_qual_event_t is used to report CCA only with newer format.
 */
typedef struct {
    uint16 status;
    uint16 id;
    chanspec_t chanspec; /**< Which channel? */
    uint16 len;
    union {
        cca_congest_simple_t cca_busy; /**< CCA busy */
        cca_congest_t cca_busy_ext;    /**< Extended CCA report */
        int32 noise;                   /**< noise floor */
    };
} cca_chan_qual_event_t;

typedef struct {
    uint16 status;
    uint16 id;
    chanspec_t chanspec; /**< Which channel? */
    uint16 len;
    union {
        cca_congest_simple_t cca_busy; /**< CCA busy */
        struct {
            cca_congest_t cca_busy_ext; /**< Extended CCA report */
            cca_congest_t
                cca_busy_nopm; /**< Extedned CCA report (PM awake time) */
            cca_congest_t
                cca_busy_pm; /**< Extedned CCA report (PM sleep time) */
        };
    };
} cca_only_chan_qual_event_t;

typedef struct {
    uint32 msrmnt_time; /**< Time for Measurement (msec) */
    uint32 msrmnt_done; /**< flag set when measurement complete */
    char buf[];
} cca_stats_n_flags;

typedef struct {
    uint32 msrmnt_query; /* host to driver query for measurement done */
    uint32 time_req;     /* time required for measurement */
    uint8 report_opt;    /* option to print different stats in report */
    uint8 PAD[3];
} cca_msrmnt_query;

/* interference sources */
enum interference_source {
    ITFR_NONE = 0,                     /**< interference */
    ITFR_PHONE,                        /**< wireless phone */
    ITFR_VIDEO_CAMERA,                 /**< wireless video camera */
    ITFR_MICROWAVE_OVEN,               /**< microwave oven */
    ITFR_BABY_MONITOR,                 /**< wireless baby monitor */
    ITFR_BLUETOOTH,                    /**< bluetooth */
    ITFR_VIDEO_CAMERA_OR_BABY_MONITOR, /**< wireless camera or baby monitor */
    ITFR_BLUETOOTH_OR_BABY_MONITOR,    /**< bluetooth or baby monitor */
    ITFR_VIDEO_CAMERA_OR_PHONE,        /**< video camera or phone */
    ITFR_UNIDENTIFIED /**< interference from unidentified source */
};

/** structure for interference source report */
typedef struct {
    uint32 flags;     /**< flags.  bit definitions below */
    uint32 source;    /**< last detected interference source */
    uint32 timestamp; /**< second timestamp on interferenced flag change */
} interference_source_rep_t;

#define WLC_CNTRY_BUF_SZ 4 /**< Country string is 3 bytes + NUL */

typedef struct wl_country {
    char country_abbrev[WLC_CNTRY_BUF_SZ]; /**< nul-terminated country code used
                                            * in the Country IE
                                            */
    int32 rev;                             /**< revision specifier for ccode
                                            * on set, -1 indicates unspecified.
                                            * on get, rev >= 0
                                            */
    char ccode[WLC_CNTRY_BUF_SZ]; /**< nul-terminated built-in country code.
                                   * variable length, but fixed size in
                                   * struct allows simple allocation for
                                   * expected country strings <= 3 chars.
                                   */
} wl_country_t;

#define CCODE_INFO_VERSION 1

typedef enum wl_ccode_role {
    WLC_CCODE_ROLE_ACTIVE = 0,
    WLC_CCODE_ROLE_HOST,
    WLC_CCODE_ROLE_80211D_ASSOC,
    WLC_CCODE_ROLE_80211D_SCAN,
    WLC_CCODE_ROLE_DEFAULT,
    WLC_CCODE_ROLE_DEFAULT_SROM_BKUP,
    WLC_CCODE_LAST
} wl_ccode_role_t;
#define WLC_NUM_CCODE_INFO WLC_CCODE_LAST

typedef struct wl_ccode_entry {
    uint16 reserved;
    uint8 band;
    uint8 role;
    char ccode[WLC_CNTRY_BUF_SZ];
} wl_ccode_entry_t;

typedef struct wl_ccode_info {
    uint16 version;
    uint16 count; /**< Number of ccodes entries in the set */
    wl_ccode_entry_t ccodelist[1];
} wl_ccode_info_t;
#define WL_CCODE_INFO_FIXED_LEN OFFSETOF(wl_ccode_info_t, ccodelist)
typedef struct wl_channels_in_country {
    uint32 buflen;
    uint32 band;
    char country_abbrev[WLC_CNTRY_BUF_SZ];
    uint32 count;
    uint32 channel[1];
} wl_channels_in_country_t;

typedef struct wl_country_list {
    uint32 buflen;
    uint32 band_set;
    uint32 band;
    uint32 count;
    char country_abbrev[1];
} wl_country_list_t;

typedef struct wl_rm_req_elt {
    int8 type;
    int8 flags;
    chanspec_t chanspec;
    uint32 token; /**< token for this measurement */
    uint32 tsf_h; /**< TSF high 32-bits of Measurement start time */
    uint32 tsf_l; /**< TSF low 32-bits */
    uint32 dur;   /**< TUs */
} wl_rm_req_elt_t;

typedef struct wl_rm_req {
    uint32 token;           /**< overall measurement set token */
    uint32 count;           /**< number of measurement requests */
    void *cb;               /**< completion callback function: may be NULL */
    void *cb_arg;           /**< arg to completion callback function */
    wl_rm_req_elt_t req[1]; /**< variable length block of requests */
} wl_rm_req_t;
#define WL_RM_REQ_FIXED_LEN OFFSETOF(wl_rm_req_t, req)

typedef struct wl_rm_rep_elt {
    int8 type;
    int8 flags;
    chanspec_t chanspec;
    uint32 token;  /**< token for this measurement */
    uint32 tsf_h;  /**< TSF high 32-bits of Measurement start time */
    uint32 tsf_l;  /**< TSF low 32-bits */
    uint32 dur;    /**< TUs */
    uint32 len;    /**< byte length of data block */
    uint8 data[1]; /**< variable length data block */
} wl_rm_rep_elt_t;
#define WL_RM_REP_ELT_FIXED_LEN 24 /**< length excluding data block */

#define WL_RPI_REP_BIN_NUM 8
typedef struct wl_rm_rpi_rep {
    uint8 rpi[WL_RPI_REP_BIN_NUM];
    int8 rpi_max[WL_RPI_REP_BIN_NUM];
} wl_rm_rpi_rep_t;

typedef struct wl_rm_rep {
    uint32 token;           /**< overall measurement set token */
    uint32 len;             /**< length of measurement report block */
    wl_rm_rep_elt_t rep[1]; /**< variable length block of reports */
} wl_rm_rep_t;
#define WL_RM_REP_FIXED_LEN 8
#ifdef BCMCCX

#define LEAP_USER_MAX 32
#define LEAP_DOMAIN_MAX 32
#define LEAP_PASSWORD_MAX 32

typedef struct wl_leap_info {
    wlc_ssid_t ssid;
    uint8 user_len;
    uint8 user[LEAP_USER_MAX];
    uint8 password_len;
    uint8 password[LEAP_PASSWORD_MAX];
    uint8 domain_len;
    uint8 domain[LEAP_DOMAIN_MAX];
    uint8 PAD;
} wl_leap_info_t;

typedef struct wl_leap_list {
    uint32 buflen;
    uint32 version;
    uint32 count;
    wl_leap_info_t leap_info[1];
} wl_leap_list_t;
#endif /* BCMCCX */

typedef enum sup_auth_status {
    /* Basic supplicant authentication states */
    WLC_SUP_DISCONNECTED = 0,
    WLC_SUP_CONNECTING,
    WLC_SUP_IDREQUIRED,
    WLC_SUP_AUTHENTICATING,
    WLC_SUP_AUTHENTICATED,
    WLC_SUP_KEYXCHANGE,
    WLC_SUP_KEYED,
    WLC_SUP_TIMEOUT,
    WLC_SUP_LAST_BASIC_STATE,

    /* Extended supplicant authentication states */
    /** Waiting to receive handshake msg M1 */
    WLC_SUP_KEYXCHANGE_WAIT_M1 = WLC_SUP_AUTHENTICATED,
    /** Preparing to send handshake msg M2 */
    WLC_SUP_KEYXCHANGE_PREP_M2 = WLC_SUP_KEYXCHANGE,
    /* Waiting to receive handshake msg M3 */
    WLC_SUP_KEYXCHANGE_WAIT_M3 = WLC_SUP_LAST_BASIC_STATE,
    WLC_SUP_KEYXCHANGE_PREP_M4, /**< Preparing to send handshake msg M4 */
    WLC_SUP_KEYXCHANGE_WAIT_G1, /**< Waiting to receive handshake msg G1 */
    WLC_SUP_KEYXCHANGE_PREP_G2  /**< Preparing to send handshake msg G2 */
} sup_auth_status_t;

typedef struct wl_wsec_key {
    uint32 index;                   /**< key index */
    uint32 len;                     /**< key length */
    uint8 data[DOT11_MAX_KEY_SIZE]; /**< key data */
    uint32 pad_1[18];
    uint32 algo;  /**< CRYPTO_ALGO_AES_CCM, CRYPTO_ALGO_WEP128, etc */
    uint32 flags; /**< misc flags */
    uint32 pad_2[2];
    int32 pad_3;
    int32 iv_initialized; /**< has IV been initialized already? */
    int32 pad_4;
    /* Rx IV */
    struct {
        uint32 hi; /**< upper 32 bits of IV */
        uint16 lo; /**< lower 16 bits of IV */
        uint16 PAD;
    } rxiv;
    uint32 pad_5[2];
    struct ether_addr ea; /**< per station */
    uint16 PAD;
} wl_wsec_key_t;

/* Min length for PSK passphrase */
#define WSEC_MIN_PSK_LEN 8
/* Max length of supported passphrases for PSK */
#define WSEC_MAX_PSK_LEN 64
/* Max length of supported passphrases for SAE */
#define WSEC_MAX_PASSPHRASE_LEN 256u

/* Flag for key material needing passhash'ing */
#define WSEC_PASSPHRASE 1u
/* Flag indicating an SAE passphrase */
#define WSEC_SAE_PASSPHRASE 2u

/**receptacle for WLC_SET_WSEC_PMK parameter */
typedef struct wsec_pmk {
    ushort key_len;                     /* octets in key material */
    ushort flags;                       /* key handling qualification */
    uint8 key[WSEC_MAX_PASSPHRASE_LEN]; /* PMK material */
} wsec_pmk_t;

#define WL_AUTH_EVENT_DATA_V1 0x1

/* tlv ids for auth event */
#define WL_AUTH_PMK_TLV_ID 1
#define WL_AUTH_PMKID_TLV_ID 2
/* AUTH event data
 * pmk and pmkid in case of SAE auth
 * xtlvs will be 32 bit alligned
 */
typedef struct wl_auth_event {
    uint16 version;
    uint16 length;
    uint8 xtlvs[];
} wl_auth_event_t;

#define WL_AUTH_EVENT_FIXED_LEN_V1 OFFSETOF(wl_auth_event_t, xtlvs)

#define WL_PMKSA_EVENT_DATA_V1 1u

/* tlv ids for PMKSA event */
#define WL_PMK_TLV_ID 1u
#define WL_PMKID_TLV_ID 2u
#define WL_PEER_ADDR_TLV_ID 3u

/* PMKSA event data structure */
typedef struct wl_pmksa_event {
    uint16 version;
    uint16 length;
    uint8 xtlvs[];
} wl_pmksa_event_t;

#define WL_PMKSA_EVENT_FIXED_LEN_V1 OFFSETOF(wl_pmksa_event_t, xtlvs)

#define FILS_CACHE_ID_LEN 2u
#define PMK_LEN_MAX 48u

typedef struct _pmkid_v1 {
    struct ether_addr BSSID;
    uint8 PMKID[WPA2_PMKID_LEN];
} pmkid_v1_t;

#define PMKID_ELEM_V2_LENGTH                                                   \
    (sizeof(struct ether_addr) + WPA2_PMKID_LEN + PMK_LEN_MAX +                \
     sizeof(ssid_info_t) + FILS_CACHE_ID_LEN)

typedef struct _pmkid_v2 {
    uint16 length; /* Should match PMKID_ELEM_VX_LENGTH */
    struct ether_addr BSSID;
    uint8 PMKID[WPA2_PMKID_LEN];
    uint8 pmk[PMK_LEN_MAX]; /* for FILS key deriviation */
    uint16 pmk_len;
    ssid_info_t ssid;
    uint8 fils_cache_id[FILS_CACHE_ID_LEN];
} pmkid_v2_t;

#define PMKID_LIST_VER_2 2

typedef struct _pmkid_v3 {
    struct ether_addr bssid;
    uint8 pmkid[WPA2_PMKID_LEN];
    uint8 pmkid_len;
    uint8 pmk[PMK_LEN_MAX];
    uint8 pmk_len;
    uint16 fils_cache_id; /* 2-byte length */
    uint8 pad;
    uint8 ssid_len;
    uint8 ssid[DOT11_MAX_SSID_LEN]; /* For FILS, to save ESSID */
                                    /* one pmkid used in whole ESS */
    uint32 time_left;               /* remaining time until expirary in sec. */
    /* 0 means expired, all 0xFF means never expire */
} pmkid_v3_t;

#define PMKID_LIST_VER_3 3
typedef struct _pmkid_list_v1 {
    uint32 npmkid;
    pmkid_v1_t pmkid[1];
} pmkid_list_v1_t;

typedef struct _pmkid_list_v2 {
    uint16 version;
    uint16 length;
    pmkid_v2_t pmkid[1];
} pmkid_list_v2_t;

typedef struct _pmkid_list_v3 {
    uint16 version;
    uint16 length;
    uint16 count;
    uint16 pad;
    pmkid_v3_t pmkid[];
} pmkid_list_v3_t;

#ifndef PMKID_VERSION_ENABLED
/* pmkid structure before versioning. legacy. DONOT update anymore here */
typedef pmkid_v1_t pmkid_t;
typedef pmkid_list_v1_t pmkid_list_t;
#endif /* PMKID_VERSION_ENABLED */

typedef struct _pmkid_cand {
    struct ether_addr BSSID;
    uint8 preauth;
} pmkid_cand_t;

typedef struct _pmkid_cand_list {
    uint32 npmkid_cand;
    pmkid_cand_t pmkid_cand[1];
} pmkid_cand_list_t;

#define WL_STA_ANT_MAX 4 /**< max possible rx antennas */

typedef struct wl_assoc_info {
    uint32 req_len;
    uint32 resp_len;
    uint32 flags;
    struct dot11_assoc_req req;
    struct ether_addr reassoc_bssid; /**< used in reassoc's */
    struct dot11_assoc_resp resp;
    uint32 state;
} wl_assoc_info_t;

typedef struct wl_led_info {
    uint32 index; /**< led index */
    uint32 behavior;
    uint8 activehi;
    uint8 PAD[3];
} wl_led_info_t;

/** srom read/write struct passed through ioctl */
typedef struct {
    uint32 byteoff; /**< byte offset */
    uint32 nbytes;  /**< number of bytes */
    uint16 buf[];
} srom_rw_t;

#define CISH_FLAG_PCIECIS (1 << 15) /**< write CIS format bit for PCIe CIS */

/** similar cis (srom or otp) struct [iovar: may not be aligned] */
typedef struct {
    uint16 source;  /**< cis source */
    uint16 flags;   /**< flags */
    uint32 byteoff; /**< byte offset */
    uint32 nbytes;  /**< number of bytes */
                    /* data follows here */
} cis_rw_t;

/** R_REG and W_REG struct passed through ioctl */
typedef struct {
    uint32 byteoff; /**< byte offset of the field in d11regs_t */
    uint32 val;     /**< read/write value of the field */
    uint32 size;    /**< sizeof the field */
    uint32 band;    /**< band (optional) */
} rw_reg_t;

/**
 * Structure used by GET/SET_ATTEN ioctls - it controls power in b/g-band
 * PCL - Power Control Loop
 */
typedef struct {
    uint16 auto_ctrl; /**< WL_ATTEN_XX */
    uint16 bb;        /**< Baseband attenuation */
    uint16 radio;     /**< Radio attenuation */
    uint16 txctl1;    /**< Radio TX_CTL1 value */
} atten_t;

/** Per-AC retry parameters */
struct wme_tx_params_s {
    uint8 short_retry;
    uint8 short_fallback;
    uint8 long_retry;
    uint8 long_fallback;
    uint16 max_rate; /**< In units of 512 Kbps */
};

typedef struct wme_tx_params_s wme_tx_params_t;

#define WL_WME_TX_PARAMS_IO_BYTES (sizeof(wme_tx_params_t) * AC_COUNT)

/**Used to get specific link/ac parameters */
typedef struct {
    int32 ac;
    uint8 val;
    struct ether_addr ea;
    uint8 PAD;
} link_val_t;

#define WL_PM_MUTE_TX_VER 1

typedef struct wl_pm_mute_tx {
    uint16 version;  /**< version */
    uint16 len;      /**< length */
    uint16 deadline; /**< deadline timer (in milliseconds) */
    uint8 enable;    /**< set to 1 to enable mode; set to 0 to disable it */
    uint8 PAD;
} wl_pm_mute_tx_t;

/*
 * Please update the following when modifying this structure:
 *   StaInfo Twiki page flags section - description of the sta_info_t struct
 *    src/wl/exe/wlu.c - print of sta_info_t
 * Pay attention to version if structure changes.
 */

/* sta_info_t version 4 */
typedef struct {
    uint16 ver; /**< version of this struct */
    uint16 len; /**< length in bytes of this structure */
    uint16 cap; /**< sta's advertised capabilities */
    uint16 PAD;
    uint32 flags;         /**< flags defined below */
    uint32 idle;          /**< time since data pkt rx'd from sta */
    struct ether_addr ea; /**< Station address */
    uint16 PAD;
    wl_rateset_t rateset;        /**< rateset in use */
    uint32 in;                   /**< seconds elapsed since associated */
    uint32 listen_interval_inms; /**< Min Listen interval in ms for this STA */
    uint32 tx_pkts;              /**< # of user packets transmitted (unicast) */
    uint32 tx_failures;          /**< # of user packets failed */
    uint32 rx_ucast_pkts;        /**< # of unicast packets received */
    uint32 rx_mcast_pkts;        /**< # of multicast packets received */
    uint32 tx_rate;              /**< Rate used by last tx frame */
    uint32 rx_rate;              /**< Rate of last successful rx frame */
    uint32 rx_decrypt_succeeds;  /**< # of packet decrypted successfully */
    uint32 rx_decrypt_failures;  /**< # of packet decrypted unsuccessfully */
    uint32 tx_tot_pkts;          /**< # of user tx pkts (ucast + mcast) */
    uint32 rx_tot_pkts;          /**< # of data packets recvd (uni + mcast) */
    uint32 tx_mcast_pkts;        /**< # of mcast pkts txed */
    uint64 tx_tot_bytes;         /**< data bytes txed (ucast + mcast) */
    uint64 rx_tot_bytes;         /**< data bytes recvd (ucast + mcast) */
    uint64 tx_ucast_bytes;       /**< data bytes txed (ucast) */
    uint64 tx_mcast_bytes;       /**< # data bytes txed (mcast) */
    uint64 rx_ucast_bytes;       /**< data bytes recvd (ucast) */
    uint64 rx_mcast_bytes;       /**< data bytes recvd (mcast) */
    int8 rssi[WL_STA_ANT_MAX];   /**< average rssi per antenna
                                  * of data frames
                                  */
    int8 nf[WL_STA_ANT_MAX];     /**< per antenna noise floor */
    uint16 aid;                  /**< association ID */
    uint16 ht_capabilities;      /**< advertised ht caps */
    uint16 vht_flags;            /**< converted vht flags */
    uint16 PAD;
    uint32 tx_pkts_retried;               /**< # of frames where a retry was
                                           * necessary
                                           */
    uint32 tx_pkts_retry_exhausted;       /**< # of user frames where a retry
                                           * was exhausted
                                           */
    int8 rx_lastpkt_rssi[WL_STA_ANT_MAX]; /**< Per antenna RSSI of last
                                           * received data frame.
                                           */
    /* TX WLAN retry/failure statistics:
     * Separated for host requested frames and WLAN locally generated frames.
     * Include unicast frame only where the retries/failures can be counted.
     */
    uint32 tx_pkts_total;              /**< # user frames sent successfully */
    uint32 tx_pkts_retries;            /**< # user frames retries */
    uint32 tx_pkts_fw_total;           /**< # FW generated sent successfully */
    uint32 tx_pkts_fw_retries;         /**< # retries for FW generated frames */
    uint32 tx_pkts_fw_retry_exhausted; /**< # FW generated where a retry
                                        * was exhausted
                                        */
    uint32 rx_pkts_retried;            /**< # rx with retry bit set */
    uint32 tx_rate_fallback;           /**< lowest fallback TX rate */
    /* Fields above this line are common to sta_info_t versions 4 and 5 */

    uint32 rx_dur_total; /* total user RX duration (estimated) */

    chanspec_t chanspec; /** chanspec this sta is on */
    uint16 PAD;
    wl_rateset_args_v1_t rateset_adv; /* rateset along with mcs index bitmap */
    uint32 PAD;
} sta_info_v4_t;

/* Note: Version 4 is the latest version of sta_info_t.  Version 5 is abandoned.
 * Please add new fields to version 4, not version 5.
 */
/* sta_info_t version 5 */
typedef struct {
    uint16 ver; /**< version of this struct */
    uint16 len; /**< length in bytes of this structure */
    uint16 cap; /**< sta's advertised capabilities */
    uint16 PAD;
    uint32 flags;         /**< flags defined below */
    uint32 idle;          /**< time since data pkt rx'd from sta */
    struct ether_addr ea; /**< Station address */
    uint16 PAD;
    wl_rateset_t rateset;        /**< rateset in use */
    uint32 in;                   /**< seconds elapsed since associated */
    uint32 listen_interval_inms; /**< Min Listen interval in ms for this STA */
    uint32 tx_pkts;              /**< # of user packets transmitted (unicast) */
    uint32 tx_failures;          /**< # of user packets failed */
    uint32 rx_ucast_pkts;        /**< # of unicast packets received */
    uint32 rx_mcast_pkts;        /**< # of multicast packets received */
    uint32 tx_rate;              /**< Rate used by last tx frame */
    uint32 rx_rate;              /**< Rate of last successful rx frame */
    uint32 rx_decrypt_succeeds;  /**< # of packet decrypted successfully */
    uint32 rx_decrypt_failures;  /**< # of packet decrypted unsuccessfully */
    uint32 tx_tot_pkts;          /**< # of user tx pkts (ucast + mcast) */
    uint32 rx_tot_pkts;          /**< # of data packets recvd (uni + mcast) */
    uint32 tx_mcast_pkts;        /**< # of mcast pkts txed */
    uint64 tx_tot_bytes;         /**< data bytes txed (ucast + mcast) */
    uint64 rx_tot_bytes;         /**< data bytes recvd (ucast + mcast) */
    uint64 tx_ucast_bytes;       /**< data bytes txed (ucast) */
    uint64 tx_mcast_bytes;       /**< # data bytes txed (mcast) */
    uint64 rx_ucast_bytes;       /**< data bytes recvd (ucast) */
    uint64 rx_mcast_bytes;       /**< data bytes recvd (mcast) */
    int8 rssi[WL_STA_ANT_MAX];   /**< average rssi per antenna
                                  * of data frames
                                  */
    int8 nf[WL_STA_ANT_MAX];     /**< per antenna noise floor */
    uint16 aid;                  /**< association ID */
    uint16 ht_capabilities;      /**< advertised ht caps */
    uint16 vht_flags;            /**< converted vht flags */
    uint16 PAD;
    uint32 tx_pkts_retried;               /**< # of frames where a retry was
                                           * necessary
                                           */
    uint32 tx_pkts_retry_exhausted;       /**< # of user frames where a retry
                                           * was exhausted
                                           */
    int8 rx_lastpkt_rssi[WL_STA_ANT_MAX]; /**< Per antenna RSSI of last
                                           * received data frame.
                                           */
    /* TX WLAN retry/failure statistics:
     * Separated for host requested frames and WLAN locally generated frames.
     * Include unicast frame only where the retries/failures can be counted.
     */
    uint32 tx_pkts_total;              /**< # user frames sent successfully */
    uint32 tx_pkts_retries;            /**< # user frames retries */
    uint32 tx_pkts_fw_total;           /**< # FW generated sent successfully */
    uint32 tx_pkts_fw_retries;         /**< # retries for FW generated frames */
    uint32 tx_pkts_fw_retry_exhausted; /**< # FW generated where a retry
                                        * was exhausted
                                        */
    uint32 rx_pkts_retried;            /**< # rx with retry bit set */
    uint32 tx_rate_fallback;           /**< lowest fallback TX rate */
    /* Fields above this line are common to sta_info_t versions 4 and 5 */

    chanspec_t chanspec; /** chanspec this sta is on */
    uint16 PAD;
    wl_rateset_args_v1_t rateset_adv; /* rateset along with mcs index bitmap */
} sta_info_v5_t;

/*
 * Please update the following when modifying this structure:
 *   StaInfo Twiki page flags section - description of the sta_info_t struct
 *    src/wl/exe/wlu.c - print of sta_info_t
 * Pay attention to version if structure changes.
 */

/* sta_info_t version 6
    changes to wl_rateset_args_t is leading to update this struct version as
   well.
 */
typedef struct {
    uint16 ver; /**< version of this struct */
    uint16 len; /**< length in bytes of this structure */
    uint16 cap; /**< sta's advertised capabilities */
    uint16 PAD;
    uint32 flags;         /**< flags defined below */
    uint32 idle;          /**< time since data pkt rx'd from sta */
    struct ether_addr ea; /**< Station address */
    uint16 PAD;
    wl_rateset_t rateset;        /**< rateset in use */
    uint32 in;                   /**< seconds elapsed since associated */
    uint32 listen_interval_inms; /**< Min Listen interval in ms for this STA */
    uint32 tx_pkts;              /**< # of user packets transmitted (unicast) */
    uint32 tx_failures;          /**< # of user packets failed */
    uint32 rx_ucast_pkts;        /**< # of unicast packets received */
    uint32 rx_mcast_pkts;        /**< # of multicast packets received */
    uint32 tx_rate;              /**< Rate used by last tx frame */
    uint32 rx_rate;              /**< Rate of last successful rx frame */
    uint32 rx_decrypt_succeeds;  /**< # of packet decrypted successfully */
    uint32 rx_decrypt_failures;  /**< # of packet decrypted unsuccessfully */
    uint32 tx_tot_pkts;          /**< # of user tx pkts (ucast + mcast) */
    uint32 rx_tot_pkts;          /**< # of data packets recvd (uni + mcast) */
    uint32 tx_mcast_pkts;        /**< # of mcast pkts txed */
    uint64 tx_tot_bytes;         /**< data bytes txed (ucast + mcast) */
    uint64 rx_tot_bytes;         /**< data bytes recvd (ucast + mcast) */
    uint64 tx_ucast_bytes;       /**< data bytes txed (ucast) */
    uint64 tx_mcast_bytes;       /**< # data bytes txed (mcast) */
    uint64 rx_ucast_bytes;       /**< data bytes recvd (ucast) */
    uint64 rx_mcast_bytes;       /**< data bytes recvd (mcast) */
    int8 rssi[WL_STA_ANT_MAX];   /**< average rssi per antenna
                                  * of data frames
                                  */
    int8 nf[WL_STA_ANT_MAX];     /**< per antenna noise floor */
    uint16 aid;                  /**< association ID */
    uint16 ht_capabilities;      /**< advertised ht caps */
    uint16 vht_flags;            /**< converted vht flags */
    uint16 PAD;
    uint32 tx_pkts_retried;               /**< # of frames where a retry was
                                           * necessary
                                           */
    uint32 tx_pkts_retry_exhausted;       /**< # of user frames where a retry
                                           * was exhausted
                                           */
    int8 rx_lastpkt_rssi[WL_STA_ANT_MAX]; /**< Per antenna RSSI of last
                                           * received data frame.
                                           */
    /* TX WLAN retry/failure statistics:
     * Separated for host requested frames and WLAN locally generated frames.
     * Include unicast frame only where the retries/failures can be counted.
     */
    uint32 tx_pkts_total;              /**< # user frames sent successfully */
    uint32 tx_pkts_retries;            /**< # user frames retries */
    uint32 tx_pkts_fw_total;           /**< # FW generated sent successfully */
    uint32 tx_pkts_fw_retries;         /**< # retries for FW generated frames */
    uint32 tx_pkts_fw_retry_exhausted; /**< # FW generated where a retry
                                        * was exhausted
                                        */
    uint32 rx_pkts_retried;            /**< # rx with retry bit set */
    uint32 tx_rate_fallback;           /**< lowest fallback TX rate */
    /* Fields above this line are common to sta_info_t versions 4 and 5 */

    uint32 rx_dur_total; /* total user RX duration (estimated) */

    chanspec_t chanspec; /** chanspec this sta is on */
    uint16 PAD;
    wl_rateset_args_v2_t rateset_adv; /* rateset along with mcs index bitmap */
} sta_info_v6_t;

/* define to help support one version older sta_info_t from user level
 * applications.
 */
#define WL_OLD_STAINFO_SIZE OFFSETOF(sta_info_t, tx_tot_pkts)

#define WL_STA_VER_4 4
#define WL_STA_VER_5 5
#define WL_STA_VER WL_STA_VER_4

#define SWDIV_STATS_VERSION_2 2
#define SWDIV_STATS_CURRENT_VERSION SWDIV_STATS_VERSION_2

struct wlc_swdiv_stats_v1 {
    uint32 auto_en;
    uint32 active_ant;
    uint32 rxcount;
    int32 avg_snr_per_ant0;
    int32 avg_snr_per_ant1;
    int32 avg_snr_per_ant2;
    uint32 swap_ge_rxcount0;
    uint32 swap_ge_rxcount1;
    uint32 swap_ge_snrthresh0;
    uint32 swap_ge_snrthresh1;
    uint32 swap_txfail0;
    uint32 swap_txfail1;
    uint32 swap_timer0;
    uint32 swap_timer1;
    uint32 swap_alivecheck0;
    uint32 swap_alivecheck1;
    uint32 rxcount_per_ant0;
    uint32 rxcount_per_ant1;
    uint32 acc_rxcount;
    uint32 acc_rxcount_per_ant0;
    uint32 acc_rxcount_per_ant1;
    uint32 tx_auto_en;
    uint32 tx_active_ant;
    uint32 rx_policy;
    uint32 tx_policy;
    uint32 cell_policy;
    uint32 swap_snrdrop0;
    uint32 swap_snrdrop1;
    uint32 mws_antsel_ovr_tx;
    uint32 mws_antsel_ovr_rx;
    uint8 swap_trig_event_id;
};

struct wlc_swdiv_stats_v2 {
    uint16 version; /* version of the structure
                     * as defined by SWDIV_STATS_CURRENT_VERSION
                     */
    uint16 length;  /* length of the entire structure */
    uint32 auto_en;
    uint32 active_ant;
    uint32 rxcount;
    int32 avg_snr_per_ant0;
    int32 avg_snr_per_ant1;
    int32 avg_snr_per_ant2;
    uint32 swap_ge_rxcount0;
    uint32 swap_ge_rxcount1;
    uint32 swap_ge_snrthresh0;
    uint32 swap_ge_snrthresh1;
    uint32 swap_txfail0;
    uint32 swap_txfail1;
    uint32 swap_timer0;
    uint32 swap_timer1;
    uint32 swap_alivecheck0;
    uint32 swap_alivecheck1;
    uint32 rxcount_per_ant0;
    uint32 rxcount_per_ant1;
    uint32 acc_rxcount;
    uint32 acc_rxcount_per_ant0;
    uint32 acc_rxcount_per_ant1;
    uint32 tx_auto_en;
    uint32 tx_active_ant;
    uint32 rx_policy;
    uint32 tx_policy;
    uint32 cell_policy;
    uint32 swap_snrdrop0;
    uint32 swap_snrdrop1;
    uint32 mws_antsel_ovr_tx;
    uint32 mws_antsel_ovr_rx;
    uint32 swap_trig_event_id;
};

#define WLC_NUMRATES 16 /**< max # of rates in a rateset */

/**Used to get specific STA parameters */
typedef struct {
    uint32 val;
    struct ether_addr ea;
    uint16 PAD;
} scb_val_t;

/**Used by iovar versions of some ioctls, i.e. WLC_SCB_AUTHORIZE et al */
typedef struct {
    uint32 code;
    scb_val_t ioctl_args;
} authops_t;

/** channel encoding */
typedef struct channel_info {
    int32 hw_channel;
    int32 target_channel;
    int32 scan_channel;
} channel_info_t;

/** For ioctls that take a list of MAC addresses */
typedef struct maclist {
    uint32 count;            /**< number of MAC addresses */
    struct ether_addr ea[1]; /**< variable length array of MAC addresses */
} maclist_t;

typedef struct wds_client_info {
    char ifname[INTF_NAME_SIZ]; /* WDS ifname */
    struct ether_addr ea;       /* WDS client MAC address */
} wds_client_info_t;

#define WDS_MACLIST_MAGIC 0xFFFFFFFF
#define WDS_MACLIST_VERSION 1

/* For wds MAC list ioctls */
typedef struct wds_maclist {
    uint32 count;   /* Number of WDS clients */
    uint32 magic;   /* Magic number */
    uint32 version; /* Version number */
    struct wds_client_info
        client_list[1]; /* Variable length array of WDS clients */
} wds_maclist_t;

/**get pkt count struct passed through ioctl */
typedef struct get_pktcnt {
    uint32 rx_good_pkt;
    uint32 rx_bad_pkt;
    uint32 tx_good_pkt;
    uint32 tx_bad_pkt;
    uint32 rx_ocast_good_pkt; /**< unicast packets destined for others */
} get_pktcnt_t;

/* NINTENDO2 */
#define LQ_IDX_MIN 0
#define LQ_IDX_MAX 1
#define LQ_IDX_AVG 2
#define LQ_IDX_SUM 2
#define LQ_IDX_LAST 3
#define LQ_STOP_MONITOR 0
#define LQ_START_MONITOR 1

/** Get averages RSSI, Rx PHY rate and SNR values */
/* Link Quality */
typedef struct {
    int32 rssi[LQ_IDX_LAST]; /**< Array to keep min, max, avg rssi */
    int32 snr[LQ_IDX_LAST];  /**< Array to keep min, max, avg snr */
    int32 isvalid;           /**< Flag indicating whether above data is valid */
} wl_lq_t;

typedef enum wl_wakeup_reason_type {
    LCD_ON = 1,
    LCD_OFF,
    DRC1_WAKE,
    DRC2_WAKE,
    REASON_LAST
} wl_wr_type_t;

typedef struct {
    /** Unique filter id */
    uint32 id;
    /** stores the reason for the last wake up */
    uint8 reason;
    uint8 PAD[3];
} wl_wr_t;

/** Get MAC specific rate histogram command */
typedef struct {
    struct ether_addr ea; /**< MAC Address */
    uint8 ac_cat;         /**< Access Category */
    uint8 num_pkts;       /**< Number of packet entries to be averaged */
} wl_mac_ratehisto_cmd_t;
/** Get MAC rate histogram response */
/* deprecated after JAGUAR branch */
typedef struct {
    uint32 rate[DOT11_RATE_MAX + 1];                       /**< Rates */
    uint32 mcs[WL_RATESET_SZ_HT_IOCTL * WL_TX_CHAINS_MAX]; /**< MCS counts */
    uint32 vht[WL_RATESET_SZ_VHT_MCS][WL_TX_CHAINS_MAX];   /**< VHT counts */
    uint32 tsf_timer[2][2]; /**< Start and End time for 8bytes value */
    uint32 prop11n_mcs[WLC_11N_LAST_PROP_MCS - WLC_11N_FIRST_PROP_MCS +
                       1]; /** MCS counts */
} wl_mac_ratehisto_res_t;

/* sta_info ecounters */
typedef struct {
    struct ether_addr ea;              /* Station MAC addr */
    struct ether_addr BSSID;           /* BSSID of the BSS */
    uint32 tx_pkts_fw_total;           /* # FW generated sent successfully */
    uint32 tx_pkts_fw_retries;         /* # retries for FW generated frames */
    uint32 tx_pkts_fw_retry_exhausted; /* # FW generated which
                                        * failed after retry
                                        */
} sta_info_ecounters_t;

#define STAMON_MODULE_VER 1

/**Linux network driver ioctl encoding */
typedef struct wl_ioctl {
    uint32 cmd;    /**< common ioctl definition */
    void *buf;     /**< pointer to user buffer */
    uint32 len;    /**< length of user buffer */
    uint8 set;     /**< 1=set IOCTL; 0=query IOCTL */
    uint32 used;   /**< bytes read or written (optional) */
    uint32 needed; /**< bytes needed (optional) */
} wl_ioctl_t;

#ifdef CONFIG_COMPAT
typedef struct compat_wl_ioctl {
    uint32 cmd;    /**< common ioctl definition */
    uint32 buf;    /**< pointer to user buffer */
    uint32 len;    /**< length of user buffer */
    uint8 set;     /**< 1=set IOCTL; 0=query IOCTL */
    uint32 used;   /**< bytes read or written (optional) */
    uint32 needed; /**< bytes needed (optional) */
} compat_wl_ioctl_t;
#endif /* CONFIG_COMPAT */

#define WL_NUM_RATES_CCK 4  /**< 1, 2, 5.5, 11 Mbps */
#define WL_NUM_RATES_OFDM 8 /**< 6, 9, 12, 18, 24, 36, 48, 54 Mbps SISO/CDD */
#define WL_NUM_RATES_MCS_1STREAM                                               \
    8 /**< MCS 0-7 1-stream rates - SISO/CDD/STBC/MCS */
#define WL_NUM_RATES_EXTRA_VHT 2 /**< Additional VHT 11AC rates */
#define WL_NUM_RATES_VHT 10
#define WL_NUM_RATES_VHT_ALL (WL_NUM_RATES_VHT + WL_NUM_RATES_EXTRA_VHT)
#define WL_NUM_RATES_HE 12
#define WL_NUM_RATES_MCS32 1
#define UC_PATH_LEN 128u /**< uCode path length */

/*
 * Structure for passing hardware and software
 * revision info up from the driver.
 */
typedef struct wlc_rev_info {
    uint32 vendorid;      /**< PCI vendor id */
    uint32 deviceid;      /**< device id of chip */
    uint32 radiorev;      /**< radio revision */
    uint32 chiprev;       /**< chip revision */
    uint32 corerev;       /**< core revision */
    uint32 boardid;       /**< board identifier (usu. PCI sub-device id) */
    uint32 boardvendor;   /**< board vendor (usu. PCI sub-vendor id) */
    uint32 boardrev;      /**< board revision */
    uint32 driverrev;     /**< driver version */
    uint32 ucoderev;      /**< uCode version */
    uint32 bus;           /**< bus type */
    uint32 chipnum;       /**< chip number */
    uint32 phytype;       /**< phy type */
    uint32 phyrev;        /**< phy revision */
    uint32 anarev;        /**< anacore rev */
    uint32 chippkg;       /**< chip package info */
    uint32 nvramrev;      /**< nvram revision number */
    uint32 phyminorrev;   /**< phy minor rev */
    uint32 coreminorrev;  /**< core minor rev */
    uint32 drvrev_major;  /**< driver version: major */
    uint32 drvrev_minor;  /**< driver version: minor */
    uint32 drvrev_rc;     /**< driver version: rc */
    uint32 drvrev_rc_inc; /**< driver version: rc incremental */
    uint16 ucodeprebuilt; /**< uCode prebuilt flag */
    uint16 ucodediffct;   /**< uCode diff count */
    uchar ucodeurl[128u]; /* obsolete, kept for ROM compatiblity */
    uchar ucodepath[UC_PATH_LEN]; /**< uCode URL or path */
} wlc_rev_info_t;

#define WL_REV_INFO_LEGACY_LENGTH 48

#define WL_BRAND_MAX 10
typedef struct wl_instance_info {
    uint32 instance;
    int8 brand[WL_BRAND_MAX];
    int8 PAD[4 - (WL_BRAND_MAX % 4)];
} wl_instance_info_t;

/** structure to change size of tx fifo */
typedef struct wl_txfifo_sz {
    uint16 magic;
    uint16 fifo;
    uint16 size;
} wl_txfifo_sz_t;

/* Transfer info about an IOVar from the driver */
/**Max supported IOV name size in bytes, + 1 for nul termination */
#define WLC_IOV_NAME_LEN (32 + 1)

typedef struct wlc_iov_trx_s {
    uint8 module;
    uint8 type;
    char name[WLC_IOV_NAME_LEN];
} wlc_iov_trx_t;

/** bump this number if you change the ioctl interface */
#define WLC_IOCTL_VERSION 2
#define WLC_IOCTL_VERSION_LEGACY_IOTYPES 1
/* ifdef EXT_STA */
typedef struct _wl_assoc_result {
    ulong associated;
    ulong NDIS_auth;
    ulong NDIS_infra;
} wl_assoc_result_t;
/* EXT_STA */

#define WL_PHY_PAVARS_LEN                                                      \
    32 /**< Phytype, Bandrange, chain, a[0], b[0], c[0], d[0] .. */

#define WL_PHY_PAVAR_VER 1   /**< pavars version */
#define WL_PHY_PAVARS2_NUM 3 /**< a1, b0, b1 */
typedef struct wl_pavars2 {
    uint16 ver;      /**< version of this struct */
    uint16 len;      /**< len of this structure */
    uint16 inuse;    /**< driver return 1 for a1,b0,b1 in current band range */
    uint16 phy_type; /**< phy type */
    uint16 bandrange;
    uint16 chain;
    uint16 inpa[WL_PHY_PAVARS2_NUM]; /**< phy pavars for one band range */
} wl_pavars2_t;

typedef struct wl_po {
    uint16 phy_type; /**< Phy type */
    uint16 band;
    uint16 cckpo;
    uint16 PAD;
    uint32 ofdmpo;
    uint16 mcspo[8];
} wl_po_t;

#define WL_NUM_RPCALVARS 5 /**< number of rpcal vars */

typedef struct wl_rpcal {
    uint16 value;
    uint16 update;
} wl_rpcal_t;

#define WL_NUM_RPCALPHASEVARS 5 /* number of rpcal phase vars */

typedef struct wl_rpcal_phase {
    uint16 value;
    uint16 update;
} wl_rpcal_phase_t;

typedef struct wl_aci_args {
    int32 enter_aci_thresh; /* Trigger level to start detecting ACI */
    int32 exit_aci_thresh;  /* Trigger level to exit ACI mode */
    int32 usec_spin;        /* microsecs to delay between rssi samples */
    int32 glitch_delay;     /* interval between ACI scans when glitch count is
                               consistently high */
    uint16
        nphy_adcpwr_enter_thresh; /**< ADC power to enter ACI mitigation mode */
    uint16
        nphy_adcpwr_exit_thresh; /**< ADC power to exit ACI mitigation mode */
    uint16 nphy_repeat_ctr; /**< Number of tries per channel to compute power */
    uint16 nphy_num_samples; /**< Number of samples to compute power on one
                                channel */
    uint16 nphy_undetect_window_sz; /**< num of undetects to exit ACI Mitigation
                                       mode */
    uint16 nphy_b_energy_lo_aci; /**< low ACI power energy threshold for bphy */
    uint16 nphy_b_energy_md_aci; /**< mid ACI power energy threshold for bphy */
    uint16
        nphy_b_energy_hi_aci; /**< high ACI power energy threshold for bphy */
    uint16 nphy_noise_noassoc_glitch_th_up; /**< wl interference 4 */
    uint16 nphy_noise_noassoc_glitch_th_dn;
    uint16 nphy_noise_assoc_glitch_th_up;
    uint16 nphy_noise_assoc_glitch_th_dn;
    uint16 nphy_noise_assoc_aci_glitch_th_up;
    uint16 nphy_noise_assoc_aci_glitch_th_dn;
    uint16 nphy_noise_assoc_enter_th;
    uint16 nphy_noise_noassoc_enter_th;
    uint16 nphy_noise_assoc_rx_glitch_badplcp_enter_th;
    uint16 nphy_noise_noassoc_crsidx_incr;
    uint16 nphy_noise_assoc_crsidx_incr;
    uint16 nphy_noise_crsidx_decr;
} wl_aci_args_t;

#define WL_ACI_ARGS_LEGACY_LENGTH 16 /**< bytes of pre NPHY aci args */

#define WL_MACFIFO_PLAY_ARGS_T_VERSION                                         \
    1u /* version of wl_macfifo_play_args_t struct */

enum wl_macfifo_play_flags {
    WL_MACFIFO_PLAY_STOP = 0x00u,         /* stop playing samples */
    WL_MACFIFO_PLAY_START = 0x01u,        /* start playing samples */
    WL_MACFIFO_PLAY_LOAD = 0x02u,         /* for set: load samples
                             for get: samples are loaded
                           */
    WL_MACFIFO_PLAY_GET_MAX_SIZE = 0x10u, /* get the macfifo buffer size */
    WL_MACFIFO_PLAY_GET_STATUS = 0x20u,   /* get macfifo play status */
};

typedef struct wl_macfifo_play_args {
    uint16 version; /* structure version */
    uint16 len;     /* size of structure */
    uint16 flags;
    uint8 PAD[2];
    uint32 data_len; /* data length */
} wl_macfifo_play_args_t;

#define WL_MACFIFO_PLAY_DATA_T_VERSION                                         \
    1u /* version of wl_macfifo_play_data_t struct */

typedef struct wl_macfifo_play_data {
    uint16 version;  /* structure version */
    uint16 len;      /* size of structure */
    uint32 data_len; /* data length */
} wl_macfifo_play_data_t;

#define WL_SAMPLECOLLECT_T_VERSION                                             \
    2 /**< version of wl_samplecollect_args_t struct */
typedef struct wl_samplecollect_args {
    /* version 0 fields */
    uint8 coll_us;
    uint8 PAD[3];
    int32 cores;
    /* add'l version 1 fields */
    uint16 version; /**< see definition of WL_SAMPLECOLLECT_T_VERSION */
    uint16 length;  /**< length of entire structure */
    int8 trigger;
    uint8 PAD;
    uint16 timeout;
    uint16 mode;
    uint16 PAD;
    uint32 pre_dur;
    uint32 post_dur;
    uint8 gpio_sel;
    uint8 downsamp;
    uint8 be_deaf;
    uint8 agc;    /**< loop from init gain and going down */
    uint8 filter; /**< override high pass corners to lowest */
    /* add'l version 2 fields */
    uint8 trigger_state;
    uint8 module_sel1;
    uint8 module_sel2;
    uint16 nsamps;
    uint16 PAD;
    int32 bitStart;
    uint32 gpioCapMask;
    uint8 gpio_collection;
    uint8 PAD[3];
} wl_samplecollect_args_t;

#define WL_SAMPLEDATA_T_VERSION                                                \
    1 /**< version of wl_samplecollect_args_t struct */
/* version for unpacked sample data, int16 {(I,Q),Core(0..N)} */
#define WL_SAMPLEDATA_T_VERSION_SPEC_AN 2

typedef struct wl_sampledata {
    uint16 version; /**< structure version */
    uint16 size;    /**< size of structure */
    uint16 tag;     /**< Header/Data */
    uint16 length;  /**< data length */
    uint32 flag;    /**< bit def */
} wl_sampledata_t;

/* WL_OTA START */
/* OTA Test Status */
enum {
    WL_OTA_TEST_IDLE = 0,    /**< Default Idle state */
    WL_OTA_TEST_ACTIVE = 1,  /**< Test Running */
    WL_OTA_TEST_SUCCESS = 2, /**< Successfully Finished Test */
    WL_OTA_TEST_FAIL = 3     /**< Test Failed in the Middle */
};

/* OTA SYNC Status */
enum {
    WL_OTA_SYNC_IDLE = 0,   /**< Idle state */
    WL_OTA_SYNC_ACTIVE = 1, /**< Waiting for Sync */
    WL_OTA_SYNC_FAIL = 2    /**< Sync pkt not recieved */
};

/* Various error states dut can get stuck during test */
enum {
    WL_OTA_SKIP_TEST_CAL_FAIL = 1,        /**< Phy calibration failed */
    WL_OTA_SKIP_TEST_SYNCH_FAIL = 2,      /**< Sync Packet not recieved */
    WL_OTA_SKIP_TEST_FILE_DWNLD_FAIL = 3, /**< Cmd flow file download failed */
    WL_OTA_SKIP_TEST_NO_TEST_FOUND = 4,   /**< No test found in Flow file */
    WL_OTA_SKIP_TEST_WL_NOT_UP = 5,       /**< WL UP failed */
    WL_OTA_SKIP_TEST_UNKNOWN_CALL /**< Unintentional scheduling on ota test */
};

/* Differentiator for ota_tx and ota_rx */
enum {
    WL_OTA_TEST_TX = 0, /**< ota_tx */
    WL_OTA_TEST_RX = 1, /**< ota_rx */
};

/* Catch 3 modes of operation: 20Mhz, 40Mhz, 20 in 40 Mhz */
enum {
    WL_OTA_TEST_BW_20_IN_40MHZ = 0, /**< 20 in 40 operation */
    WL_OTA_TEST_BW_20MHZ = 1,       /**< 20 Mhz operation */
    WL_OTA_TEST_BW_40MHZ = 2,       /**< full 40Mhz operation */
    WL_OTA_TEST_BW_80MHZ = 3        /* full 80Mhz operation */
};
#define HT_MCS_INUSE 0x00000080 /* HT MCS in use,indicates b0-6 holds an mcs   \
                                 */
#define VHT_MCS_INUSE                                                          \
    0x00000100 /* VHT MCS in use,indicates b0-6 holds an mcs */
#define OTA_RATE_MASK 0x0000007f /* rate/mcs value */
#define OTA_STF_SISO 0
#define OTA_STF_CDD 1
#define OTA_STF_STBC 2
#define OTA_STF_SDM 3

typedef struct ota_rate_info {
    uint8 rate_cnt; /**< Total number of rates */
    uint8 PAD;
    uint16 rate_val_mbps[WL_OTA_TEST_MAX_NUM_RATE]; /**< array of rates from
                                                       1mbps to 130mbps */
    /**< for legacy rates : ratein mbps * 2 */
    /**< for HT rates : mcs index */
} ota_rate_info_t;

typedef struct ota_power_info {
    int8 pwr_ctrl_on; /**< power control on/off */
    int8 start_pwr;   /**< starting power/index */
    int8 delta_pwr;   /**< delta power/index */
    int8 end_pwr;     /**< end power/index */
} ota_power_info_t;

typedef struct ota_packetengine {
    uint16 delay;   /**< Inter-packet delay */
                    /**< for ota_tx, delay is tx ifs in micro seconds */
                    /* for ota_rx, delay is wait time in milliseconds */
    uint16 nframes; /**< Number of frames */
    uint16 length;  /**< Packet length */
} ota_packetengine_t;

/*
 * OTA txant/rxant parameter
 *    bit7-4: 4 bits swdiv_tx/rx_policy bitmask, specify antenna-policy for SW
 * diversity bit3-0: 4 bits TxCore bitmask, specify cores used for transmit
 * frames (maximum spatial expansion)
 */
#define WL_OTA_TEST_ANT_MASK 0xF0
#define WL_OTA_TEST_CORE_MASK 0x0F

/* OTA txant/rxant 'ant_mask' field; map to Tx/Rx antenna policy for SW
 * diversity */
enum {
    WL_OTA_TEST_FORCE_ANT0 = 0x10, /* force antenna to Ant 0 */
    WL_OTA_TEST_FORCE_ANT1 = 0x20, /* force antenna to Ant 1 */
};

/* antenna/core fields access */
#define WL_OTA_TEST_GET_ANT(_txant) ((_txant)&WL_OTA_TEST_ANT_MASK)
#define WL_OTA_TEST_GET_CORE(_txant) ((_txant)&WL_OTA_TEST_CORE_MASK)

/** Test info vector */
typedef struct wl_ota_test_args {
    uint8 cur_test;     /**< test phase */
    uint8 chan;         /**< channel */
    uint8 bw;           /**< bandwidth */
    uint8 control_band; /**< control band */
    uint8 stf_mode;     /**< stf mode */
    uint8 PAD;
    ota_rate_info_t rt_info;   /**< Rate info */
    ota_packetengine_t pkteng; /**< packeteng info */
    uint8 txant;               /**< tx antenna */
    uint8 rxant;               /**< rx antenna */
    ota_power_info_t pwr_info; /**< power sweep info */
    uint8 wait_for_sync;       /**< wait for sync or not */
    uint8 ldpc;
    uint8 sgi;
    uint8 PAD;
    /* Update WL_OTA_TESTVEC_T_VERSION for adding new members to this structure
     */
} wl_ota_test_args_t;

#define WL_OTA_TESTVEC_T_VERSION 1 /* version of wl_ota_test_vector_t struct   \
                                    */
typedef struct wl_ota_test_vector {
    uint16 version;
    wl_ota_test_args_t
        test_arg[WL_OTA_TEST_MAX_NUM_SEQ]; /**< Test argument struct */
    uint16 test_cnt;                       /**< Total no of test */
    uint8 file_dwnld_valid;                /**< File successfully downloaded */
    uint8 sync_timeout;                    /**< sync packet timeout */
    int8 sync_fail_action;                 /**< sync fail action */
    struct ether_addr sync_mac;            /**< macaddress for sync pkt */
    struct ether_addr tx_mac;              /**< macaddress for tx */
    struct ether_addr rx_mac;              /**< macaddress for rx */
    int8 loop_test;                        /**< dbg feature to loop the test */
    uint16 test_rxcnt;
    /* Update WL_OTA_TESTVEC_T_VERSION for adding new members to this structure
     */
} wl_ota_test_vector_t;

/** struct copied back form dongle to host to query the status */
typedef struct wl_ota_test_status {
    int16 cur_test_cnt;    /**< test phase */
    int8 skip_test_reason; /**< skip test reasoin */
    uint8 PAD;
    wl_ota_test_args_t test_arg; /**< cur test arg details */
    uint16 test_cnt;             /**< total no of test downloaded */
    uint8 file_dwnld_valid;      /**< file successfully downloaded ? */
    uint8 sync_timeout;          /**< sync timeout */
    int8 sync_fail_action;       /**< sync fail action */
    struct ether_addr sync_mac;  /**< macaddress for sync pkt */
    struct ether_addr tx_mac;    /**< tx mac address */
    struct ether_addr rx_mac;    /**< rx mac address */
    uint8 test_stage;            /**< check the test status */
    int8 loop_test;    /**< Debug feature to puts test enfine in a loop */
    uint8 sync_status; /**< sync status */
} wl_ota_test_status_t;

/* FOR ioctl that take the sta monitor information */
typedef struct stamon_data {
    struct ether_addr ea;
    uint8 PAD[2];
    int32 rssi;
} stamon_data_t;

typedef struct stamon_info {
    int32 version;
    uint32 count;
    stamon_data_t sta_data[1];
} stamon_info_t;

typedef struct wl_ota_rx_rssi {
    uint16 pktcnt;       /* Pkt count used for this rx test */
    chanspec_t chanspec; /* Channel info on which the packets are received */
    int16 rssi;          /* Average RSSI of the first 50% packets received */
} wl_ota_rx_rssi_t;

#define WL_OTARSSI_T_VERSION 1 /* version of wl_ota_test_rssi_t struct */
#define WL_OTA_TEST_RSSI_FIXED_SIZE OFFSETOF(wl_ota_test_rssi_t, rx_rssi)

typedef struct wl_ota_test_rssi {
    uint8 version;
    uint8 testcnt; /* total measured RSSI values, valid on output only */
    wl_ota_rx_rssi_t rx_rssi[1]; /* Variable length array of wl_ota_rx_rssi_t */
} wl_ota_test_rssi_t;

/* WL_OTA END */

/**wl_radar_args_t */
typedef struct {
    int32 npulses;        /**< required number of pulses at n * t_int */
    int32 ncontig;        /**< required number of pulses at t_int */
    int32 min_pw;         /**< minimum pulse width (20 MHz clocks) */
    int32 max_pw;         /**< maximum pulse width (20 MHz clocks) */
    uint16 thresh0;       /**< Radar detection, thresh 0 */
    uint16 thresh1;       /**< Radar detection, thresh 1 */
    uint16 blank;         /**< Radar detection, blank control */
    uint16 fmdemodcfg;    /**< Radar detection, fmdemod config */
    int32 npulses_lp;     /**< Radar detection, minimum long pulses */
    int32 min_pw_lp;      /**< Minimum pulsewidth for long pulses */
    int32 max_pw_lp;      /**< Maximum pulsewidth for long pulses */
    int32 min_fm_lp;      /**< Minimum fm for long pulses */
    int32 max_span_lp;    /**< Maximum deltat for long pulses */
    int32 min_deltat;     /**< Minimum spacing between pulses */
    int32 max_deltat;     /**< Maximum spacing between pulses */
    uint16 autocorr;      /**< Radar detection, autocorr on or off */
    uint16 st_level_time; /**< Radar detection, start_timing level */
    uint16 t2_min;        /**< minimum clocks needed to remain in state 2 */
    uint8 PAD[2];
    uint32 version;       /**< version */
    uint32 fra_pulse_err; /**< sample error margin for detecting French radar
                             pulsed */
    int32 npulses_fra;    /**< Radar detection, minimum French pulses set */
    int32 npulses_stg2; /**< Radar detection, minimum staggered-2 pulses set */
    int32 npulses_stg3; /**< Radar detection, minimum staggered-3 pulses set */
    uint16 percal_mask; /**< defines which period cal is masked from radar
                           detection */
    uint8 PAD[2];
    int32 quant;              /**< quantization resolution to pulse positions */
    uint32 min_burst_intv_lp; /**< minimum burst to burst interval for bin3
                                 radar */
    uint32 max_burst_intv_lp; /**< maximum burst to burst interval for bin3
                                 radar */
    int32 nskip_rst_lp; /**< number of skipped pulses before resetting lp buffer
                         */
    int32 max_pw_tol;   /* maximum tolerance allowd in detected pulse width for
                           radar detection */
    uint16 feature_mask; /**< 16-bit mask to specify enabled features */
    uint16 thresh0_sc;   /**< Radar detection, thresh 0 */
    uint16 thresh1_sc;   /**< Radar detection, thresh 1 */
    uint8 PAD[2];
} wl_radar_args_t;

#define WL_RADAR_ARGS_VERSION 2

typedef struct {
    uint32 version;        /**< version */
    uint16 thresh0_20_lo;  /**< Radar detection, thresh 0 (range 5250-5350MHz)
                              for BW 20MHz */
    uint16 thresh1_20_lo;  /**< Radar detection, thresh 1 (range 5250-5350MHz)
                              for BW 20MHz */
    uint16 thresh0_40_lo;  /**< Radar detection, thresh 0 (range 5250-5350MHz)
                              for BW 40MHz */
    uint16 thresh1_40_lo;  /**< Radar detection, thresh 1 (range 5250-5350MHz)
                              for BW 40MHz */
    uint16 thresh0_80_lo;  /**< Radar detection, thresh 0 (range 5250-5350MHz)
                              for BW 80MHz */
    uint16 thresh1_80_lo;  /**< Radar detection, thresh 1 (range 5250-5350MHz)
                              for BW 80MHz */
    uint16 thresh0_20_hi;  /**< Radar detection, thresh 0 (range 5470-5725MHz)
                              for BW 20MHz */
    uint16 thresh1_20_hi;  /**< Radar detection, thresh 1 (range 5470-5725MHz)
                              for BW 20MHz */
    uint16 thresh0_40_hi;  /**< Radar detection, thresh 0 (range 5470-5725MHz)
                              for BW 40MHz */
    uint16 thresh1_40_hi;  /**< Radar detection, thresh 1 (range 5470-5725MHz)
                              for BW 40MHz */
    uint16 thresh0_80_hi;  /**< Radar detection, thresh 0 (range 5470-5725MHz)
                              for BW 80MHz */
    uint16 thresh1_80_hi;  /**< Radar detection, thresh 1 (range 5470-5725MHz)
                              for BW 80MHz */
    uint16 thresh0_160_lo; /**< Radar detection, thresh 0 (range 5250-5350MHz)
                              for BW 160MHz */
    uint16 thresh1_160_lo; /**< Radar detection, thresh 1 (range 5250-5350MHz)
                              for BW 160MHz */
    uint16 thresh0_160_hi; /**< Radar detection, thresh 0 (range 5470-5725MHz)
                              for BW 160MHz */
    uint16 thresh1_160_hi; /**< Radar detection, thresh 1 (range 5470-5725MHz)
                              for BW 160MHz */
} wl_radar_thr_t;

typedef struct {
    uint32 version; /* version */
    uint16 thresh0_sc_20_lo;
    uint16 thresh1_sc_20_lo;
    uint16 thresh0_sc_40_lo;
    uint16 thresh1_sc_40_lo;
    uint16 thresh0_sc_80_lo;
    uint16 thresh1_sc_80_lo;
    uint16 thresh0_sc_20_hi;
    uint16 thresh1_sc_20_hi;
    uint16 thresh0_sc_40_hi;
    uint16 thresh1_sc_40_hi;
    uint16 thresh0_sc_80_hi;
    uint16 thresh1_sc_80_hi;
    uint16 fc_varth_sb;
    uint16 fc_varth_bin5_sb;
    uint16 notradar_enb;
    uint16 max_notradar_lp;
    uint16 max_notradar;
    uint16 max_notradar_lp_sc;
    uint16 max_notradar_sc;
    uint16 highpow_war_enb;
    uint16 highpow_sp_ratio; // unit is 0.5
} wl_radar_thr2_t;

#define WL_RADAR_THR_VERSION 2

typedef struct {
    uint32 ver;
    uint32 len;
    int32 rssi_th[3];
    uint8 rssi_gain_80[4];
    uint8 rssi_gain_160[4];
} wl_dyn_switch_th_t;

#define WL_PHY_DYN_SWITCH_TH_VERSION 1

/** RSSI per antenna */
typedef struct {
    uint32 version;                 /**< version field */
    uint32 count;                   /**< number of valid antenna rssi */
    int8 rssi_ant[WL_RSSI_ANT_MAX]; /**< rssi per antenna */
    int8 rssi_sum;                  /**< summed rssi across all antennas */
    int8 PAD[3];
} wl_rssi_ant_t;

/* SNR per antenna */
typedef struct {
    uint32 version;                /* version field */
    uint32 count;                  /* number of valid antenna snr */
    int8 snr_ant[WL_RSSI_ANT_MAX]; /* snr per antenna */
} wl_snr_ant_t;

/* Weighted average support */
#define WL_WA_VER 0 /* Initial version - Basic WA algorithm only */

#define WL_WA_ALGO_BASIC                                                       \
    0 /* Basic weighted average algorithm (all 4 metrics) */
#define WL_WA_TYPE_RSSI 0
#define WL_WA_TYPE_SNR 1
#define WL_WA_TYPE_TXRATE 2
#define WL_WA_TYPE_RXRATE 3
#define WL_WA_TYPE_MAX 4

typedef struct { /* payload of subcmd in xtlv */
    uint8 id;
    uint8 n_total;  /* Total number of samples (n_total >= n_recent) */
    uint8 n_recent; /* Number of samples denoted as recent */
    uint8 w_recent; /* Total weight for the recent samples (as percentage) */
} wl_wa_basic_params_t;

typedef struct {
    uint16 ver;
    uint16 len;
    uint8 subcmd[]; /* sub-cmd in bcm_xtlv_t */
} wl_wa_cmd_t;

/** data structure used in 'dfs_status' wl interface, which is used to query dfs
 * status */
typedef struct {
    uint32 state;    /**< noted by WL_DFS_CACSTATE_XX. */
    uint32 duration; /**< time spent in ms in state. */
    /**
     * as dfs enters ISM state, it removes the operational channel from quiet
     * channel list and notes the channel in channel_cleared. set to 0 if no
     * channel is cleared
     */
    chanspec_t chanspec_cleared;
    /** chanspec cleared used to be a uint32, add another to uint16 to maintain
     * size */
    uint16 pad;
} wl_dfs_status_t;

typedef struct {
    uint32 state;                     /* noted by WL_DFS_CACSTATE_XX */
    uint32 duration;                  /* time spent in ms in state */
    chanspec_t chanspec;              /* chanspec of this core */
    chanspec_t chanspec_last_cleared; /* chanspec last cleared for operation by
                                         scanning */
    uint16 sub_type; /* currently just the index of the core or the respective
                        PLL */
    uint16 pad;
} wl_dfs_sub_status_t;

#define WL_DFS_STATUS_ALL_VERSION (1)
typedef struct {
    uint16 version; /* version field; current max version 1 */
    uint16 num_sub_status;
    wl_dfs_sub_status_t
        dfs_sub_status[1]; /* struct array of length num_sub_status */
} wl_dfs_status_all_t;

#define WL_DFS_AP_MOVE_VERSION (1)

struct wl_dfs_ap_move_status_v1 {
    int16 dfs_status;           /* DFS scan status */
    chanspec_t chanspec;        /* New AP Chanspec */
    wl_dfs_status_t cac_status; /* CAC status */
};

typedef struct wl_dfs_ap_move_status_v2 {
    int8 version;        /* version field; current max version 1 */
    int8 move_status;    /* DFS move status */
    chanspec_t chanspec; /* New AP Chanspec */
    wl_dfs_status_all_t
        scan_status; /* status; see dfs_status_all for wl_dfs_status_all_t */
} wl_dfs_ap_move_status_v2_t;

#define WL_DFS_AP_MOVE_ABORT                                                   \
    -1 /* Abort any dfs_ap_move in progress immediately */
#define WL_DFS_AP_MOVE_STUNT                                                   \
    -2 /* Stunt move but continue background CSA if in progress */

/** data structure used in 'radar_status' wl interface, which is use to query
 * radar det status */
typedef struct {
    uint8 detected;
    uint8 PAD[3];
    int32 count;
    uint8 pretended;
    uint8 PAD[3];
    uint32 radartype;
    uint32 timenow;
    uint32 timefromL;
    int32 lp_csect_single;
    int32 detected_pulse_index;
    int32 nconsecq_pulses;
    chanspec_t ch;
    uint8 PAD[2];
    int32 pw[10];
    int32 intv[10];
    int32 fm[10];
} wl_radar_status_t;

#define NUM_PWRCTRL_RATES 12

typedef struct {
    uint8 txpwr_band_max[NUM_PWRCTRL_RATES]; /**< User set target */
    uint8 txpwr_limit[NUM_PWRCTRL_RATES];    /**< reg and local power limit */
    uint8 txpwr_local_max;        /**< local max according to the AP */
    uint8 txpwr_local_constraint; /**< local constraint according to the AP */
    uint8 txpwr_chan_reg_max;     /**< Regulatory max for this channel */
    uint8 txpwr_target[2][NUM_PWRCTRL_RATES]; /**< Latest target for 2.4 and 5
                                                 Ghz */
    uint8 txpwr_est_Pout[2]; /**< Latest estimate for 2.4 and 5 Ghz */
    uint8 txpwr_opo[NUM_PWRCTRL_RATES]; /**< On G phy, OFDM power offset */
    uint8 txpwr_bphy_cck_max[NUM_PWRCTRL_RATES]; /**< Max CCK power for this
                                                    band (SROM) */
    uint8 txpwr_bphy_ofdm_max; /**< Max OFDM power for this band (SROM) */
    uint8 txpwr_aphy_max[NUM_PWRCTRL_RATES]; /**< Max power for A band (SROM) */
    int8 txpwr_antgain[2];      /**< Ant gain for each band - from SROM */
    uint8 txpwr_est_Pout_gofdm; /**< Pwr estimate for 2.4 OFDM */
} tx_power_legacy_t;

#define WL_TX_POWER_RATES_LEGACY 45
#define WL_TX_POWER_MCS20_FIRST 12
#define WL_TX_POWER_MCS20_NUM 16
#define WL_TX_POWER_MCS40_FIRST 28
#define WL_TX_POWER_MCS40_NUM 17

typedef struct {
    uint32 flags;
    chanspec_t chanspec;       /**< txpwr report for this channel */
    chanspec_t local_chanspec; /**< channel on which we are associated */
    uint8 local_max;           /**< local max according to the AP */
    uint8 local_constraint;    /**< local constraint according to the AP */
    int8 antgain[2];           /**< Ant gain for each band - from SROM */
    uint8 rf_cores;            /**< count of RF Cores being reported */
    uint8 est_Pout[4];         /**< Latest tx power out estimate per RF
                                * chain without adjustment
                                */
    uint8 est_Pout_cck;        /**< Latest CCK tx power out estimate */
    uint8 user_limit[WL_TX_POWER_RATES_LEGACY];  /**< User limit */
    uint8 reg_limit[WL_TX_POWER_RATES_LEGACY];   /**< Regulatory power limit */
    uint8 board_limit[WL_TX_POWER_RATES_LEGACY]; /**< Max power board can
                                                    support (SROM) */
    uint8 target[WL_TX_POWER_RATES_LEGACY];      /**< Latest target power */
    uint8 PAD[2];
} tx_power_legacy2_t;

#define WL_NUM_2x2_ELEMENTS 4
#define WL_NUM_3x3_ELEMENTS 6
#define WL_NUM_4x4_ELEMENTS 10

typedef struct {
    uint16 ver; /**< version of this struct */
    uint16 len; /**< length in bytes of this structure */
    uint32 flags;
    chanspec_t chanspec;       /**< txpwr report for this channel */
    chanspec_t local_chanspec; /**< channel on which we are associated */
    uint32 buflen;             /**< ppr buffer length */
    uint8 pprbuf[1];           /**< Latest target power buffer */
} wl_txppr_t;

#define WL_TXPPR_VERSION 1
#define WL_TXPPR_LENGTH (sizeof(wl_txppr_t))
#define TX_POWER_T_VERSION 45

/* curpower ppr types */
enum {
    PPRTYPE_TARGETPOWER = 1,
    PPRTYPE_BOARDLIMITS = 2,
    PPRTYPE_REGLIMITS = 3,
    PPRTYPE_RU_REGLIMITS = 4,
    PPRTYPE_RU_BOARDLIMITS = 5,
    PPRTYPE_RU_TARGETPOWER = 6,
    PPRTYPE_LAST
};

/** number of ppr serialization buffers, it should be reg, board and target */
#define WL_TXPPR_SER_BUF_NUM (PPRTYPE_LAST - 1)

typedef struct chanspec_txpwr_max {
    chanspec_t chanspec; /**< chanspec */
    uint8 txpwr_max;     /**< max txpwr in all the rates */
    uint8 padding;
} chanspec_txpwr_max_t;

typedef struct wl_chanspec_txpwr_max {
    uint16 ver;   /**< version of this struct */
    uint16 len;   /**< length in bytes of this structure */
    uint32 count; /**< number of elements of (chanspec, txpwr_max) pair */
    chanspec_txpwr_max_t txpwr[1]; /**< array of (chanspec, max_txpwr) pair */
} wl_chanspec_txpwr_max_t;

#define WL_CHANSPEC_TXPWR_MAX_VER 1
#define WL_CHANSPEC_TXPWR_MAX_LEN (sizeof(wl_chanspec_txpwr_max_t))

typedef struct tx_inst_power {
    uint8 txpwr_est_Pout[2];    /**< Latest estimate for 2.4 and 5 Ghz */
    uint8 txpwr_est_Pout_gofdm; /**< Pwr estimate for 2.4 OFDM */
} tx_inst_power_t;

#define WL_NUM_TXCHAIN_MAX 4
typedef struct wl_txchain_pwr_offsets {
    int8 offset[WL_NUM_TXCHAIN_MAX]; /**< quarter dBm signed offset for each
                                        chain */
} wl_txchain_pwr_offsets_t;

/** maximum channels returned by the get valid channels iovar */
#define WL_NUMCHANNELS 64
#define WL_NUMCHANNELS_MANY_CHAN 10
#define WL_ITER_LIMIT_MANY_CHAN 5

#define WL_MIMO_PS_CFG_VERSION_1 1

typedef struct wl_mimops_cfg {
    uint8 version;
    /* active_chains: 0 for all, 1 for 1 chain. */
    uint8 active_chains;
    /* static (0) or dynamic (1).or disabled (3) Mode applies only when
     * active_chains = 0. */
    uint8 mode;
    /* bandwidth = Full (0), 20M (1), 40M (2), 80M (3). */
    uint8 bandwidth;
    uint8 applychangesafterlearning;
    uint8 pad[3];
} wl_mimops_cfg_t;

/* This event is for tracing MIMO PS metrics snapshot calls.
 * It is helpful to debug out-of-sync issue between
 * ucode SHM values and FW snapshot calculation.
 * It is part of the EVENT_LOG_TAG_MIMO_PS_TRACE.
 */
#define WL_MIMO_PS_METRICS_SNAPSHOT_TRACE_TYPE 0
typedef struct wl_mimo_ps_metrics_snapshot_trace {
    /* type field for this TLV: */
    uint16 type;
    /* length field for this TLV */
    uint16 len;
    uint32 idle_slotcnt_mimo;      /* MIMO idle slotcnt raw SHM value */
    uint32 last_idle_slotcnt_mimo; /* stored value snapshot */
    uint32 idle_slotcnt_siso;      /* SISO idle slotcnt raw SHM value */
    uint32 last_idle_slotcnt_siso; /* stored value snapshot */
    uint32 rx_time_mimo;           /* Rx MIMO raw SHM value */
    uint32 last_rx_time_mimo;      /* stored value snapshot */
    uint32 rx_time_siso;           /* RX SISO raw SHM value */
    uint32 last_rx_time_siso;      /* stored value snapshot */
    uint32 tx_time_1chain;         /* Tx 1-chain raw SHM value */
    uint32 last_tx_time_1chain;    /* stored value snapshot */
    uint32 tx_time_2chain;         /* Tx 2-chain raw SHM value */
    uint32 last_tx_time_2chain;    /* stored value snapshot */
    uint32 tx_time_3chain;         /* Tx 3-chain raw SHM value */
    uint32 last_tx_time_3chain;    /* stored value snapshot */
    uint16 reason;                 /* reason for snapshot call, see below */
    /* Does the call reset last values after delta calculation */
    uint16 reset_last;
} wl_mimo_ps_metrics_snapshot_trace_t;
/* reason codes for mimo ps metrics snapshot function calls */
#define WL_MIMOPS_METRICS_SNAPSHOT_REPORT 1
#define WL_MIMOPS_METRICS_SNAPSHOT_RXCHAIN_SET 2
#define WL_MIMOPS_METRICS_SNAPSHOT_ARBI 3
#define WL_MIMOPS_METRICS_SNAPSHOT_SLOTUPD 4
#define WL_MIMOPS_METRICS_SNAPSHOT_PMBCNRX 5
#define WL_MIMOPS_METRICS_SNAPSHOT_BMACINIT 6
#define WL_MIMOPS_METRICS_SNAPSHOT_HT_COMPLETE 7
#define WL_MIMOPS_METRICS_SNAPSHOT_OCL 8

#define WL_MIMO_PS_STATUS_VERSION_2 2
typedef struct wl_mimo_ps_status {
    uint8 version;
    uint8 ap_cap; /* The associated AP's capability (BW, MIMO/SISO). */
    uint8 association_status; /* How we are associated to the AP (MIMO/SISO). */
    uint8 mimo_ps_state; /* mimo_ps_cfg states: [0-5]. See below for values */
    uint8 mrc_state;     /* MRC state: NONE (0), ACTIVE(1) */
    uint8 bss_rxchain;   /* bss rxchain bitmask */
    uint8 bss_txchain;   /* bss txchain bitmask */
    uint8 bss_bw;     /* bandwidth: Full (0), 20M (1), 40M (2), 80M (3), etc */
    uint16 hw_state;  /* bitmask of hw state. See below for values */
    uint8 hw_rxchain; /* actual HW rxchain bitmask */
    uint8 hw_txchain; /* actual HW txchain bitmask */
    uint8 hw_bw;      /* bandwidth: Full (0), 20M (1), 40M (2), 80M (3), etc */
    uint8 pm_bcnrx_state;      /* actual state of ucode flag */
    uint8 basic_rates_present; /* internal flag to trigger siso bcmc rx */
    uint8 siso_bcmc_rx_state;  /* actual state of ucode flag */
} wl_mimo_ps_status_t;

#define WL_MIMO_PS_STATUS_VERSION_1 1
typedef struct wl_mimo_ps_status_v1 {
    uint8 version;
    uint8 ap_cap; /* The associated AP's capability (BW, MIMO/SISO). */
    uint8 association_status; /* How we are associated to the AP (MIMO/SISO). */
    uint8 mimo_ps_state; /* mimo_ps_cfg states: [0-5]. See below for values */
    uint8 mrc_state;     /* MRC state: NONE (0), ACTIVE(1) */
    uint8 bss_rxchain;   /* bss rxchain bitmask */
    uint8 bss_txchain;   /* bss txchain bitmask */
    uint8 bss_bw;     /* bandwidth: Full (0), 20M (1), 40M (2), 80M (3), etc */
    uint16 hw_state;  /* bitmask of hw state. See below for values */
    uint8 hw_rxchain; /* actual HW rxchain bitmask */
    uint8 hw_txchain; /* actual HW txchain bitmask */
    uint8 hw_bw;      /* bandwidth: Full (0), 20M (1), 40M (2), 80M (3), etc */
    uint8 pad[3];
} wl_mimo_ps_status_v1_t;

#define WL_MIMO_PS_STATUS_AP_CAP(ap_cap) (ap_cap & 0x0F)
#define WL_MIMO_PS_STATUS_AP_CAP_BW(ap_cap) (ap_cap >> 4)
#define WL_MIMO_PS_STATUS_ASSOC_BW_SHIFT 4

/* version 3: assoc status: low nibble is status enum, high other flags */
#define WL_MIMO_PS_STATUS_VERSION_3 3
#define WL_MIMO_PS_STATUS_ASSOC_STATUS_MASK 0x0F
#define WL_MIMO_PS_STATUS_ASSOC_STATUS_VHT_WITHOUT_OMN 0x80

/* mimo_ps_status: ap_cap/association status */
enum {
    WL_MIMO_PS_STATUS_ASSOC_NONE = 0,
    WL_MIMO_PS_STATUS_ASSOC_SISO = 1,
    WL_MIMO_PS_STATUS_ASSOC_MIMO = 2,
    WL_MIMO_PS_STATUS_ASSOC_LEGACY = 3
};

/* mimo_ps_status: mimo_ps_cfg states */
enum {
    WL_MIMO_PS_CFG_STATE_NONE = 0,
    WL_MIMO_PS_CFG_STATE_INFORM_AP_INPROGRESS = 1,
    WL_MIMO_PS_CFG_STATE_INFORM_AP_DONE = 2,
    WL_MIMO_PS_CFG_STATE_LEARNING = 3,
    WL_MIMO_PS_CFG_STATE_HW_CONFIGURE = 4,
    WL_MIMO_PS_CFG_STATE_INFORM_AP_PENDING = 5
};

/* mimo_ps_status: hw_state values */
#define WL_MIMO_PS_STATUS_HW_STATE_NONE 0
#define WL_MIMO_PS_STATUS_HW_STATE_LTECOEX (0x1 << 0)
#define WL_MIMO_PS_STATUS_HW_STATE_MIMOPS_BSS (0x1 << 1)
#define WL_MIMO_PS_STATUS_HW_STATE_SCAN (0x1 << 3)
#define WL_MIMO_PS_STATUS_HW_STATE_TXPPR (0x1 << 4)
#define WL_MIMO_PS_STATUS_HW_STATE_PWRTHOTTLE (0x1 << 5)
#define WL_MIMO_PS_STATUS_HW_STATE_TMPSENSE (0x1 << 6)
#define WL_MIMO_PS_STATUS_HW_STATE_IOVAR (0x1 << 7)
#define WL_MIMO_PS_STATUS_HW_STATE_AP_BSS (0x1 << 8)

/* mimo_ps_status: mrc states */
#define WL_MIMO_PS_STATUS_MRC_NONE 0
#define WL_MIMO_PS_STATUS_MRC_ACTIVE 1

/* mimo_ps_status: core flag states for single-core beacon and siso-bcmc rx */
#define WL_MIMO_PS_STATUS_MHF_FLAG_NONE 0
#define WL_MIMO_PS_STATUS_MHF_FLAG_ACTIVE 1
#define WL_MIMO_PS_STATUS_MHF_FLAG_COREDOWN 2
#define WL_MIMO_PS_STATUS_MHF_FLAG_INVALID 3

/* Type values for the REASON */
#define WL_MIMO_PS_PS_LEARNING_ABORTED (1 << 0)
#define WL_MIMO_PS_PS_LEARNING_COMPLETED (1 << 1)
#define WL_MIMO_PS_PS_LEARNING_ONGOING (1 << 2)

typedef struct wl_mimo_ps_learning_event_data {
    uint32 startTimeStamp;
    uint32 endTimeStamp;
    uint16 reason;
    struct ether_addr BSSID;
    uint32 totalSISO_below_rssi_threshold;
    uint32 totalMIMO_below_rssi_threshold;
    uint32 totalSISO_above_rssi_threshold;
    uint32 totalMIMO_above_rssi_threshold;
} wl_mimo_ps_learning_event_data_t;

#define WL_MIMO_PS_PS_LEARNING_CFG_ABORT (1 << 0)
#define WL_MIMO_PS_PS_LEARNING_CFG_STATUS (1 << 1)
#define WL_MIMO_PS_PS_LEARNING_CFG_CONFIG (1 << 2)
#define WL_MIMO_PS_PS_LEARNING_CFG_MASK (0x7)

#define WL_MIMO_PS_PS_LEARNING_CFG_V1 1

typedef struct wl_mimops_learning_cfg {
    /* flag:  bit 0 for abort */
    /* flag:  bit 1 for status */
    /* flag:  bit 2 for configuring no of packets and rssi */
    uint8 flag;
    /* mimo ps learning version, compatible version is 0 */
    uint8 version;
    /* if version is 0 or rssi is 0, ignored */
    int8 learning_rssi_threshold;
    uint8 reserved;
    uint32 no_of_packets_for_learning;
    wl_mimo_ps_learning_event_data_t mimops_learning_data;
} wl_mimops_learning_cfg_t;

#define WL_OCL_STATUS_VERSION 1
typedef struct ocl_status_info {
    uint8 version;
    uint8 len;
    uint16 fw_status; /* Bits representing FW disable reasons */
    uint8 hw_status;  /* Bits for actual HW config and SISO/MIMO coremask */
    uint8 coremask;   /* The ocl core mask (indicating listening core) */
} ocl_status_info_t;

/* MWS OCL map */
#define WL_MWS_OCL_OVERRIDE_VERSION 1
typedef struct wl_mws_ocl_override {
    uint16 version;        /* Structure version */
    uint16 bitmap_2g;      /* bitmap for 2.4G channels bits 1-13 */
    uint16 bitmap_5g_lo;   /* bitmap for 5G low channels by 2:
                            *34-48, 52-56, 60-64, 100-102
                            */
    uint16 bitmap_5g_mid;  /* bitmap for 5G mid channels by 2:
                            * 104, 108-112, 116-120, 124-128,
                            * 132-136, 140, 149-151
                            */
    uint16 bitmap_5g_high; /* bitmap for 5G high channels by 2
                            * 153, 157-161, 165
                            */
} wl_mws_ocl_override_t;

/* Bits for fw_status */
#define OCL_DISABLED_HOST 0x01 /* Host has disabled through ocl_enable */
#define OCL_DISABLED_RSSI 0x02 /* Disabled because of ocl_rssi_threshold */
#define OCL_DISABLED_LTEC 0x04 /* Disabled due to LTE Coex activity */
#define OCL_DISABLED_SISO 0x08 /* Disabled while in SISO mode */
#define OCL_DISABLED_CAL 0x10  /* Disabled during active calibration */
#define OCL_DISABLED_CHANSWITCH 0x20 /* Disabled during active channel switch  \
                                      */
#define OCL_DISABLED_ASPEND 0x40     /* Disabled due to assoc pending */

/* Bits for hw_status */
#define OCL_HWCFG 0x01    /* State of OCL config bit in phy HW */
#define OCL_HWMIMO 0x02   /* Set if current coremask is > 1 bit */
#define OCL_COREDOWN 0x80 /* Set if core is currently down */

#define WL_OPS_CFG_VERSION_1 1
/* Common IOVAR struct */
typedef struct wl_ops_cfg_v1 {
    uint16 version;
    uint16 len; /* total length includes fixed fields and variable data[] */
    uint16 subcmd_id; /* subcommand id */
    uint16 padding;   /* reserved / padding for 4 byte align */
    uint8 data[];     /* subcommand data; could be empty */
} wl_ops_cfg_v1_t;

/* subcommands ids */
enum {
    WL_OPS_CFG_SUBCMD_ENABLE = 0,        /* OPS enable/disable mybss and obss
                                          * for nav and plcp options
                                          */
    WL_OPS_CFG_SUBCMD_MAX_SLEEP_DUR = 1, /* Max sleep duration used for OPS */
    WL_OPS_CFG_SUBCMD_RESET_STATS = 2    /* Reset stats part of ops_status
                                          * on both slices
                                          */
};

#define WL_OPS_CFG_MASK 0xffff
#define WL_OPS_CFG_CAP_MASK 0xffff0000
#define WL_OPS_CFG_CAP_SHIFT 16        /* Shift bits to locate the OPS CAP */
#define WL_OPS_MAX_SLEEP_DUR 12500     /* max ops duration in us */
#define WL_OPS_MINOF_MAX_SLEEP_DUR 512 /* minof max ops duration in us */
#define WL_OPS_SUPPORTED_CFG                                                   \
    (WL_OPS_MYBSS_PLCP_DUR | WL_OPS_MYBSS_NAV_DUR | WL_OPS_OBSS_PLCP_DUR |     \
     WL_OPS_OBSS_NAV_DUR)
#define WL_OPS_DEFAULT_CFG WL_OPS_SUPPORTED_CFG

/* WL_OPS_CFG_SUBCMD_ENABLE */
typedef struct wl_ops_cfg_enable {
    uint32 bits; /* selectively enable ops for mybss and obss */
} wl_ops_cfg_enable_t;
/* Bits for WL_OPS_CFG_SUBCMD_ENABLE Parameter */
#define WL_OPS_MYBSS_PLCP_DUR                                                  \
    0x1 /* OPS based on mybss 11b & 11n mixed HT frames                        \
         * PLCP header duration                                                \
         */
#define WL_OPS_MYBSS_NAV_DUR 0x2 /* OPS based on mybss RTS-CTS duration */
#define WL_OPS_OBSS_PLCP_DUR                                                   \
    0x4                         /* OPS based on obss 11b & 11n mixed HT frames \
                                 * PLCP header duration                        \
                                 */
#define WL_OPS_OBSS_NAV_DUR 0x8 /* OPS based on obss RTS-CTS duration */

/* WL_OPS_CFG_SUBCMD_MAX_SLEEP_DUR */
typedef struct wl_ops_cfg_max_sleep_dur {
    uint32 val; /* maximum sleep duration (us) used for OPS */
} wl_ops_cfg_max_sleep_dur_t;

/* WL_OPS_CFG_SUBCMD_RESET_STATS */
typedef struct wl_ops_cfg_reset_stats {
    uint32 val; /* bitmap of slices, 0 means all slices */
} wl_ops_cfg_reset_stats_t;

#define WL_OPS_STATUS_VERSION_1 1
#define OPS_DUR_HIST_BINS                                                      \
    5 /* number of bins used, 0-1, 1-2, 2-4, 4-8, >8 msec */
typedef struct wl_ops_status_v1 {
    uint16 version;
    uint16 len;                /* Total length including all fixed fields */
    uint8 slice_index;         /* Slice for which status is reported */
    uint8 disable_obss;        /* indicate if obss cfg is disabled */
    uint8 pad[2];              /* 4-byte alignment */
    uint32 disable_reasons;    /* FW disable reasons */
    uint32 disable_duration;   /* ops disable time(ms) due to disable reasons */
    uint32 applied_ops_config; /* currently applied ops config */
    uint32 partial_ops_dur; /* Total time (in usec) of partial ops duration */
    uint32 full_ops_dur;    /* Total time (in usec) of full ops duration */
    uint32 count_dur_hist[OPS_DUR_HIST_BINS]; /* ops occurrence histogram */
    uint32 nav_cnt;      /* number of times ops triggered based NAV duration */
    uint32 plcp_cnt;     /* number of times ops triggered based PLCP duration */
    uint32 mybss_cnt;    /* number of times mybss ops trigger */
    uint32 obss_cnt;     /* number of times obss ops trigger */
    uint32 miss_dur_cnt; /* number of times ops couldn't happen
                          * due to insufficient duration
                          */
    uint32 miss_premt_cnt; /* number of times ops couldn't happen due
                            * to not meeting Phy preemption thresh
                            */
    uint32 max_dur_cnt;    /* number of times ops did not trigger due to
                            * frames exceeding max sleep duration
                            */
    uint32 wake_cnt;       /* number of ops miss due to wake reason */
    uint32 bcn_wait_cnt;   /* number of ops miss due to waiting for bcn */
} wl_ops_status_v1_t;
/* Bits for disable_reasons */
#define OPS_DISABLED_HOST 0x01 /* Host has disabled through ops_cfg */
#define OPS_DISABLED_UNASSOC                                                   \
    0x02 /* Disabled because the slice is in unassociated state */
#define OPS_DISABLED_SCAN 0x04 /* Disabled because the slice is in scan state  \
                                */
#define OPS_DISABLED_BCN_MISS                                                  \
    0x08 /* Disabled because beacon missed for a duration */

#define WL_PSBW_CFG_VERSION_1 1
/* Common IOVAR struct */
typedef struct wl_psbw_cfg_v1 {
    uint16 version;
    uint16 len; /* total length includes fixed fields and variable data[] */
    uint16 subcmd_id; /* subcommand id */
    uint16 pad;       /* reserved / padding for 4 byte align */
    uint8 data[];     /* subcommand data */
} wl_psbw_cfg_v1_t;

/* subcommands ids */
enum {
    /* PSBW enable/disable */
    WL_PSBW_CFG_SUBCMD_ENABLE = 0,
    /* override psbw disable requests */
    WL_PSBW_CFG_SUBCMD_OVERRIDE_DISABLE_MASK = 1,
    /* Reset stats part of psbw status */
    WL_PSBW_CFG_SUBCMD_RESET_STATS = 2
};

#define WL_PSBW_OVERRIDE_DISA_CFG_MASK 0x0000ffff
#define WL_PSBW_OVERRIDE_DISA_CAP_MASK 0xffff0000
#define WL_PSBW_OVERRIDE_DISA_CAP_SHIFT 16 /* shift bits for cap */

/* WL_PSBW_CFG_SUBCMD_ENABLE */
typedef struct wl_psbw_cfg_enable {
    bool enable; /* enable or disable */
} wl_psbw_cfg_enable_t;

/* WL_PSBW_CFG_SUBCMD_OVERRIDE_DISABLE_MASK */
typedef struct wl_psbw_cfg_override_disable_mask {
    uint32 mask; /* disable requests to override, cap and current cfg */
} wl_psbw_cfg_override_disable_mask_t;

/* WL_PSBW_CFG_SUBCMD_RESET_STATS */
typedef struct wl_psbw_cfg_reset_stats {
    uint32 val; /* infra interface index, 0 */
} wl_psbw_cfg_reset_stats_t;

#define WL_PSBW_STATUS_VERSION_1 1
typedef struct wl_psbw_status_v1 {
    uint16 version;
    uint16 len;              /* total length including all fixed fields */
    uint8 curr_slice_index;  /* current slice index of the interface */
    uint8 associated;        /* interface associatd */
    chanspec_t chspec;       /* radio chspec */
    uint32 state;            /* psbw state */
    uint32 disable_reasons;  /* FW disable reasons */
    uint32 slice_enable_dur; /* time(ms) psbw remains enabled on this slice */
    uint32 total_enable_dur; /* time(ms) psbw remains enabled total */
    uint32 enter_cnt;        /* total cnt entering PSBW active */
    uint32 exit_cnt;         /* total cnt exiting PSBW active */
    uint32 exit_imd_cnt;     /* total cnt imd exit when waited N tbtts */
    uint32 enter_skip_cnt;   /* total cnt entering PSBW active skipped */
} wl_psbw_status_v1_t;

/* Bit for state */
#define PSBW_ACTIVE 0x1     /* active 20MHz */
#define PSBW_TTTT_PEND 0x2  /* waiting for TTTT intr */
#define PSBW_WAIT_ENTER 0x4 /* in wait period before entering */
#define PSBW_CAL_DONE 0x8   /* 20M channel cal done */

/* Bits for disable_reasons */
#define WL_PSBW_DISA_HOST 0x00000001  /* Host has disabled through psbw_cfg */
#define WL_PSBW_DISA_AP20M 0x00000002 /* AP is operating on 20 MHz */
#define WL_PSBW_DISA_SLOTTED_BSS 0x00000004  /* slot_bss active */
#define WL_PSBW_DISA_NOT_PMFAST 0x00000008   /* Not PM_FAST */
#define WL_PSBW_DISA_BASICRATESET 0x00000010 /* BasicRateSet is empty */
#define WL_PSBW_DISA_NOT_D3 0x00000020       /* PCIe not in D3 */
#define WL_PSBW_DISA_CSA 0x00000040          /* CSA IE is present */
#define WL_PSBW_DISA_ASSOC 0x00000080 /* assoc state is active/or unassoc */
#define WL_PSBW_DISA_SCAN 0x00000100  /* scan state is active */
#define WL_PSBW_DISA_CAL 0x00000200   /* cal pending or active */
/* following are not part of disable reasons */
#define WL_PSBW_EXIT_PM 0x00001000       /* Out of PM */
#define WL_PSBW_EXIT_TIM 0x00002000      /* unicast TIM bit present */
#define WL_PSBW_EXIT_DATA 0x00004000     /* Data for transmission */
#define WL_PSBW_EXIT_MGMTDATA 0x00008000 /* management frame for transmission  \
                                          */
#define WL_PSBW_EXIT_BW_UPD 0x00010000   /* BW being updated */
#define WL_PSBW_DISA_NONE 0x80000000     /* reserved for internal use only */

/*
 * Join preference iovar value is an array of tuples. Each tuple has a one-byte
 * type, a one-byte length, and a variable length value.  RSSI type tuple must
 * be present in the array.
 *
 * Types are defined in "join preference types" section.
 *
 * Length is the value size in octets. It is reserved for WL_JOIN_PREF_WPA type
 * tuple and must be set to zero.
 *
 * Values are defined below.
 *
 * 1. RSSI - 2 octets
 * offset 0: reserved
 * offset 1: reserved
 *
 * 2. WPA - 2 + 12 * n octets (n is # tuples defined below)
 * offset 0: reserved
 * offset 1: # of tuples
 * offset 2: tuple 1
 * offset 14: tuple 2
 * ...
 * offset 2 + 12 * (n - 1) octets: tuple n
 *
 * struct wpa_cfg_tuple {
 *   uint8 akm[DOT11_OUI_LEN+1];     akm suite
 *   uint8 ucipher[DOT11_OUI_LEN+1]; unicast cipher suite
 *   uint8 mcipher[DOT11_OUI_LEN+1]; multicast cipher suite
 * };
 *
 * multicast cipher suite can be specified as a specific cipher suite or
 * WL_WPA_ACP_MCS_ANY.
 *
 * 3. BAND - 2 octets
 * offset 0: reserved
 * offset 1: see "band preference" and "band types"
 *
 * 4. BAND RSSI - 2 octets
 * offset 0: band types
 * offset 1: +ve RSSI boost value in dB
 */

struct tsinfo_arg {
    uint8 octets[3];
};

#define RATE_CCK_1MBPS 0
#define RATE_CCK_2MBPS 1
#define RATE_CCK_5_5MBPS 2
#define RATE_CCK_11MBPS 3

#define RATE_LEGACY_OFDM_6MBPS 0
#define RATE_LEGACY_OFDM_9MBPS 1
#define RATE_LEGACY_OFDM_12MBPS 2
#define RATE_LEGACY_OFDM_18MBPS 3
#define RATE_LEGACY_OFDM_24MBPS 4
#define RATE_LEGACY_OFDM_36MBPS 5
#define RATE_LEGACY_OFDM_48MBPS 6
#define RATE_LEGACY_OFDM_54MBPS 7

#define WL_BSSTRANS_RSSI_RATE_MAP_VERSION 1
#define WL_BSSTRANS_RSSI_RATE_MAP_VERSION_V1 1
#define WL_BSSTRANS_RSSI_RATE_MAP_VERSION_V2 2

typedef struct wl_bsstrans_rssi {
    int8 rssi_2g; /**< RSSI in dbm for 2.4 G */
    int8 rssi_5g; /**< RSSI in dbm for 5G, unused for cck */
} wl_bsstrans_rssi_t;

#define RSSI_RATE_MAP_MAX_STREAMS 4 /**< max streams supported */

/** RSSI to rate mapping, all 20Mhz, no SGI */
typedef struct wl_bsstrans_rssi_rate_map_v2 {
    uint16 ver;
    uint16 len;                               /**< length of entire structure */
    wl_bsstrans_rssi_t cck[WL_NUM_RATES_CCK]; /**< 2.4G only */
    wl_bsstrans_rssi_t ofdm[WL_NUM_RATES_OFDM]; /**< 6 to 54mbps */
    wl_bsstrans_rssi_t phy_n[RSSI_RATE_MAP_MAX_STREAMS]
                            [WL_NUM_RATES_MCS_1STREAM]; /* MCS0-7 */
    wl_bsstrans_rssi_t phy_ac[RSSI_RATE_MAP_MAX_STREAMS]
                             [WL_NUM_RATES_VHT_ALL]; /**< MCS0-11 */
    wl_bsstrans_rssi_t phy_ax[RSSI_RATE_MAP_MAX_STREAMS]
                             [WL_NUM_RATES_HE]; /**< MCS0-11 */
} wl_bsstrans_rssi_rate_map_v2_t;

/** RSSI to rate mapping, all 20Mhz, no SGI */
typedef struct wl_bsstrans_rssi_rate_map_v1 {
    uint16 ver;
    uint16 len;                               /**< length of entire structure */
    wl_bsstrans_rssi_t cck[WL_NUM_RATES_CCK]; /**< 2.4G only */
    wl_bsstrans_rssi_t ofdm[WL_NUM_RATES_OFDM]; /**< 6 to 54mbps */
    wl_bsstrans_rssi_t phy_n[RSSI_RATE_MAP_MAX_STREAMS]
                            [WL_NUM_RATES_MCS_1STREAM]; /* MCS0-7 */
    wl_bsstrans_rssi_t phy_ac[RSSI_RATE_MAP_MAX_STREAMS]
                             [WL_NUM_RATES_VHT]; /**< MCS0-9 */
} wl_bsstrans_rssi_rate_map_v1_t;

/** RSSI to rate mapping, all 20Mhz, no SGI */
typedef struct wl_bsstrans_rssi_rate_map {
    uint16 ver;
    uint16 len;                               /**< length of entire structure */
    wl_bsstrans_rssi_t cck[WL_NUM_RATES_CCK]; /**< 2.4G only */
    wl_bsstrans_rssi_t ofdm[WL_NUM_RATES_OFDM]; /**< 6 to 54mbps */
    wl_bsstrans_rssi_t phy_n[RSSI_RATE_MAP_MAX_STREAMS]
                            [WL_NUM_RATES_MCS_1STREAM]; /* MCS0-7 */
    wl_bsstrans_rssi_t phy_ac[RSSI_RATE_MAP_MAX_STREAMS]
                             [WL_NUM_RATES_VHT]; /**< MCS0-9 */
} wl_bsstrans_rssi_rate_map_t;

#define WL_BSSTRANS_ROAMTHROTTLE_VERSION 1

/** Configure number of scans allowed per throttle period */
typedef struct wl_bsstrans_roamthrottle {
    uint16 ver;
    uint16 period;
    uint16 scans_allowed;
} wl_bsstrans_roamthrottle_t;

#define NFIFO 6 /**< # tx/rx fifopairs */

#ifndef NFIFO_EXT
#if defined(BCM_AQM_DMA_DESC) && !defined(BCM_AQM_DMA_DESC_DISABLED)
#define NFIFO_EXT 10 /* 4EDCA + 4 TWT + 1 Mcast/Bcast + 1 Spare */
#elif defined(WL11AX_TRIGGERQ) && !defined(WL11AX_TRIGGERQ_DISABLED)
#define NFIFO_EXT 10
#else
#define NFIFO_EXT NFIFO
#endif /* BCM_AQM_DMA_DESC && !BCM_AQM_DMA_DESC_DISABLED */
#endif /* NFIFO_EXT */

/* When new reason codes are added to list, Please update wl_reinit_names also
 */
/* Reinit reason codes */
enum {
    WL_REINIT_RC_NONE = 0,
    WL_REINIT_RC_PS_SYNC = 1,
    WL_REINIT_RC_PSM_WD = 2,
    WL_REINIT_RC_MAC_WAKE = 3,
    WL_REINIT_RC_MAC_SUSPEND = 4,
    WL_REINIT_RC_MAC_SPIN_WAIT = 5,
    WL_REINIT_RC_AXI_BUS_ERROR = 6,
    WL_REINIT_RC_DEVICE_REMOVED = 7,
    WL_REINIT_RC_PCIE_FATAL_ERROR = 8,
    WL_REINIT_RC_OL_FW_TRAP = 9,
    WL_REINIT_RC_FIFO_ERR = 10,
    WL_REINIT_RC_INV_TX_STATUS = 11,
    WL_REINIT_RC_MQ_ERROR = 12,
    WL_REINIT_RC_PHYTXERR_THRESH = 13,
    WL_REINIT_RC_USER_FORCED = 14,
    WL_REINIT_RC_FULL_RESET = 15,
    WL_REINIT_RC_AP_BEACON = 16,
    WL_REINIT_RC_PM_EXCESSED = 17,
    WL_REINIT_RC_NO_CLK = 18,
    WL_REINIT_RC_SW_ASSERT = 19,
    WL_REINIT_RC_PSM_JMP0 = 20,
    WL_REINIT_RC_PSM_RUN = 21,
    WL_REINIT_RC_ENABLE_MAC = 22,
    WL_REINIT_RC_SCAN_TIMEOUT = 23,
    WL_REINIT_RC_JOIN_TIMEOUT = 24,
    /* Below error codes are generated during D3 exit validation */
    WL_REINIT_RC_LINK_NOT_ACTIVE = 25,
    WL_REINIT_RC_PCI_CFG_RD_FAIL = 26,
    WL_REINIT_RC_INV_VEN_ID = 27,
    WL_REINIT_RC_INV_DEV_ID = 28,
    WL_REINIT_RC_INV_BAR0 = 29,
    WL_REINIT_RC_INV_BAR2 = 30,
    WL_REINIT_RC_AER_UC_FATAL = 31,
    WL_REINIT_RC_AER_UC_NON_FATAL = 32,
    WL_REINIT_RC_AER_CORR = 33,
    WL_REINIT_RC_AER_DEV_STS = 34,
    WL_REINIT_RC_PCIe_STS = 35,
    WL_REINIT_RC_MMIO_RD_FAIL = 36,
    WL_REINIT_RC_MMIO_RD_INVAL = 37,
    WL_REINIT_RC_MMIO_ARM_MEM_RD_FAIL = 38,
    WL_REINIT_RC_MMIO_ARM_MEM_INVAL = 39,
    WL_REINIT_RC_SROM_LOAD_FAILED = 40,
    WL_REINIT_RC_PHY_CRASH = 41,
    WL_REINIT_TX_STALL = 42,
    WL_REINIT_RC_TX_FLOW_CONTROL_BLOCKED = 43,
    WL_REINIT_RC_RX_HC_FAIL = 44,
    WL_REINIT_RC_RX_DMA_STALL = 45,
    WL_REINIT_UTRACE_BUF_OVERLAP_SR = 46,
    WL_REINIT_UTRACE_TPL_OUT_BOUNDS = 47,
    WL_REINIT_UTRACE_TPL_OSET_STRT0 = 48,
    WL_REINIT_RC_PHYTXERR = 49,
    WL_REINIT_RC_PSM_FATAL_SUSP = 50,
    WL_REINIT_RC_TX_FIFO_SUSP = 51,
    WL_REINIT_RC_MAC_ENABLE = 52,
    WL_REINIT_RC_SCAN_STALLED = 53,
    WL_REINIT_RC_PHY_HC = 54,
    WL_REINIT_RC_LAST /* This must be the last entry */
};

#define WL_REINIT_RC_INVALID 255

#define NREINITREASONCOUNT 8
/* NREINITREASONCOUNT is 8 in other branches.
 * Any change to this will break wl tool compatibility with other branches
 * #define NREINITREASONCOUNT	WL_REINIT_RC_LAST
 */

#define REINITRSNIDX(_x) (((_x) < WL_REINIT_RC_LAST) ? (_x) : 0)

#define WL_CNT_T_VERSION 30 /**< current version of wl_cnt_t struct */
#define WL_CNT_VERSION_6 6
#define WL_CNT_VERSION_7 7
#define WL_CNT_VERSION_11 11
#define WL_CNT_VERSION_XTLV 30

#define WL_COUNTERS_IOV_VERSION_1 1
#define WL_SUBCNTR_IOV_VER WL_COUNTERS_IOV_VERSION_1
/* First two uint16 are version and lenght fields. So offset of the first
 * counter will be 4 */
#define FIRST_COUNTER_OFFSET 0x04

/* need for now due to src/wl/ndis automerged to other branches. e.g. BISON */
#define WLC_WITH_XTLV_CNT

/* Number of xtlv info as required to calculate subcounter offsets */
#define WL_CNT_XTLV_ID_NUM 12
#define WL_TLV_IOV_VER 1

/**
 * tlv IDs uniquely identifies counter component
 * packed into wl_cmd_t container
 */
enum wl_cnt_xtlv_id {
    WL_CNT_XTLV_SLICE_IDX = 0x1,       /**< Slice index */
    WL_CNT_XTLV_WLC = 0x100,           /**< WLC layer counters */
    WL_CNT_XTLV_WLC_RINIT_RSN = 0x101, /**< WLC layer reinitreason extension */
    WL_CNT_XTLV_WLC_HE = 0x102,        /* he counters */
    WL_CNT_XTLV_WLC_SECVLN = 0x103,    /* security vulnerabilities counters */
    WL_CNT_XTLV_WLC_HE_OMI = 0x104,    /* he omi counters */
    WL_CNT_XTLV_CNTV_LE10_UCODE =
        0x200,                         /**< wl counter ver < 11 UCODE MACSTAT */
    WL_CNT_XTLV_LT40_UCODE_V1 = 0x300, /**< corerev < 40 UCODE MACSTAT */
    WL_CNT_XTLV_GE40_UCODE_V1 = 0x400, /**< corerev >= 40 UCODE MACSTAT */
    WL_CNT_XTLV_GE64_UCODEX_V1 = 0x800, /* corerev >= 64 UCODEX MACSTAT */
    WL_CNT_XTLV_GE80_UCODE_V1 = 0x900,  /* corerev >= 80 UCODEX MACSTAT */
    WL_CNT_XTLV_GE80_TXFUNFL_UCODE_V1 =
        0x1000 /* corerev >= 80 UCODEX MACSTAT */
};

/* tlv IDs uniquely identifies periodic state component */
enum wl_periodic_slice_state_xtlv_id {
    WL_STATE_COMPACT_COUNTERS = 0x1,
    WL_STATE_TXBF_COUNTERS = 0x2,
    WL_STATE_COMPACT_HE_COUNTERS = 0x3
};

/* Sub tlvs for chan_counters */
enum wl_periodic_chan_xtlv_id {
    WL_CHAN_GENERIC_COUNTERS = 0x1,
    WL_CHAN_PERIODIC_COUNTERS = 0x2
};

#ifdef WLC_CHAN_ECNTR_TEST
#define WL_CHAN_PERIODIC_CNTRS_VER_1 1
typedef struct wlc_chan_periodic_cntr {
    uint16 version;
    uint16 pad;
    uint32 rxstrt;
} wlc_chan_periodic_cntr_t;
#endif /* WLC_CHAN_ECNTR_TEST */

#define WL_CHANCNTR_HDR_VER_1 1
typedef struct wlc_chan_cntr_hdr_v1 {
    uint16 version;
    uint16 pad;
    chanspec_t chanspec; /* Dont add any fields above this */
    uint16 pad1;
    uint32 total_time;
    uint32 chan_entry_cnt;
} wlc_chan_cntr_hdr_v1_t;

/* tlv IDs uniquely identifies periodic state component */
enum wl_periodic_if_state_xtlv_id {
    WL_STATE_IF_COMPACT_STATE = 0x1,
    WL_STATE_IF_ADPS_STATE = 0x02
};

enum wl_periodic_tdls_if_state_xtlv_id { WL_STATE_IF_TDLS_STATE = 0x1 };

#define TDMTX_CNT_VERSION_V1 1
#define TDMTX_CNT_VERSION_V2 2

/* structure holding tdm counters that interface to iovar */
typedef struct tdmtx_cnt_v1 {
    uint16 ver;
    uint16 length;          /* length of this structure */
    uint16 wlc_idx;         /* index for wlc */
    uint16 enabled;         /* tdmtx is enabled on slice */
    uint32 tdmtx_txa_on;    /* TXA on requests */
    uint32 tdmtx_txa_tmcnt; /* Total number of TXA timeout */
    uint32 tdmtx_por_on;    /* TXA POR requests */
    uint32 tdmtx_txpuen;    /* Path enable requests */
    uint32
        tdmtx_txpudis; /* Total number of times Tx path is muted on the slice */
    uint32 tdmtx_txpri_on; /* Total number of times Tx priority was obtained by
                              the slice */
    uint32
        tdmtx_txdefer; /* Total number of times Tx was deferred on the slice */
    uint32
        tdmtx_txmute; /* Total number of times active Tx muted on the slice */
    uint32 tdmtx_actpwrboff;  /* Total number of times TX power is backed off by
                                 the slice */
    uint32 tdmtx_txa_dur;     /* Total time txa on */
    uint32 tdmtx_txpri_dur;   /* Total time TXPri */
    uint32 tdmtx_txdefer_dur; /* Total time txdefer */
    /* TDMTX input fields */
    uint32 tdmtx_txpri;
    uint32 tdmtx_defer;
    uint32 tdmtx_threshold;
    uint32 tdmtx_rssi_threshold;
    uint32 tdmtx_txpwrboff;
    uint32 tdmtx_txpwrboff_dt;
} tdmtx_cnt_v1_t;

typedef struct {
    uint16 ver;
    uint16 length; /* length of the data portion */
    uint16 cnt;
    uint16 pad;   /* pad to align to 32 bit */
    uint8 data[]; /* array of tdmtx_cnt_v1_t */
} tdmtx_status_t;

/* structure holding counters that match exactly shm field sizes */
typedef struct tdmtx_cnt_shm_v1 {
    uint16 tdmtx_txa_on; /* TXA on requests */
    uint16 tdmtx_tmcnt;  /* TXA on requests */
    uint16 tdmtx_por_on; /* TXA POR requests */
    uint16 tdmtx_txpuen; /* Path enable requests */
    uint16
        tdmtx_txpudis; /* Total number of times Tx path is muted on the slice */
    uint16 tdmtx_txpri_on; /* Total number of times Tx priority was obtained by
                              the slice */
    uint16
        tdmtx_txdefer; /* Total number of times Tx was defered by the slice */
    uint16
        tdmtx_txmute; /* Total number of times active Tx muted on the slice */
    uint16 tdmtx_actpwrboff;  /* Total number of times TX power is backed off by
                                 the slice */
    uint16 tdmtx_txa_dur_l;   /* Total time (low 16 bits) txa on */
    uint16 tdmtx_txa_dur_h;   /* Total time (low 16 bits) txa on */
    uint16 tdmtx_txpri_dur_l; /* Total time (low 16 bits) TXPri */
    uint16 tdmtx_txpri_dur_h; /* Total time (high 16 bits) TXPri */
    uint16 tdmtx_txdefer_dur_l; /* Total time (low 16 bits)  txdefer */
    uint16 tdmtx_txdefer_dur_h; /* Total time (high 16 bits) txdefer */
} tdmtx_cnt_shm_v1_t;

/* structure holding tdm counters that interface to iovar for version 2 */
typedef struct tdmtx_cnt_v2 {
    uint16 ver;
    uint16 length;          /* length of this structure */
    uint16 wlc_idx;         /* index for wlc */
    uint16 enabled;         /* tdmtx is enabled on slice */
    uint32 tdmtx_txa_on;    /* TXA on requests */
    uint32 tdmtx_txa_tmcnt; /* Total number of TXA timeout */
    uint32 tdmtx_porhi_on;  /* TXA PORHI requests */
    uint32 tdmtx_porlo_on;  /* TXA PORLO requests */
    uint32 tdmtx_txpuen;    /* Path enable requests */
    uint32
        tdmtx_txpudis; /* Total number of times Tx path is muted on the slice */
    uint32 tdmtx_txpri_on; /* Total number of times Tx priority was obtained by
                              the slice */
    uint32
        tdmtx_txdefer; /* Total number of times Tx was deferred on the slice */
    uint32
        tdmtx_txmute; /* Total number of times active Tx muted on the slice */
    uint32 tdmtx_actpwrboff;  /* Total number of times TX power is backed off by
                                 the slice */
    uint32 tdmtx_txa_dur;     /* Total time txa on */
    uint32 tdmtx_txpri_dur;   /* Total time TXPri */
    uint32 tdmtx_txdefer_dur; /* Total time txdefer */
    /* TDMTX input fields */
    uint32 tdmtx_txpri;
    uint32 tdmtx_defer;
    uint32 tdmtx_threshold;
    uint32 tdmtx_rssi_threshold;
    uint32 tdmtx_txpwrboff;
    uint32 tdmtx_txpwrboff_dt;
} tdmtx_cnt_v2_t;

/* structure holding counters that match exactly shm field sizes */
typedef struct tdmtx_cnt_shm_v2 {
    uint16 tdmtx_txa_on;   /* TXA on requests */
    uint16 tdmtx_tmcnt;    /* TXA on requests */
    uint16 tdmtx_porhi_on; /* TXA PORHI requests */
    uint16 tdmtx_porlo_on; /* TXA PORLO requests */
    uint16 tdmtx_txpuen;   /* Path enable requests */
    uint16
        tdmtx_txpudis; /* Total number of times Tx path is muted on the slice */
    uint16 tdmtx_txpri_on; /* Total number of times Tx priority was obtained by
                              the slice */
    uint16
        tdmtx_txdefer; /* Total number of times Tx was defered by the slice */
    uint16
        tdmtx_txmute; /* Total number of times active Tx muted on the slice */
    uint16 tdmtx_actpwrboff;  /* Total number of times TX power is backed off by
                                 the slice */
    uint16 tdmtx_txa_dur_l;   /* Total time (low 16 bits) txa on */
    uint16 tdmtx_txa_dur_h;   /* Total time (low 16 bits) txa on */
    uint16 tdmtx_txpri_dur_l; /* Total time (low 16 bits) TXPri */
    uint16 tdmtx_txpri_dur_h; /* Total time (high 16 bits) TXPri */
    uint16 tdmtx_txdefer_dur_l; /* Total time (low 16 bits)  txdefer */
    uint16 tdmtx_txdefer_dur_h; /* Total time (high 16 bits) txdefer */
} tdmtx_cnt_shm_v2_t;

typedef struct wl_tdmtx_ioc {
    uint16 id;    /* ID of the sub-command */
    uint16 len;   /* total length of all data[] */
    uint8 data[]; /* var len payload */
} wl_tdmtx_ioc_t;

/*
 * iovar subcommand ids
 */
enum {
    IOV_TDMTX_ENB = 1,
    IOV_TDMTX_STATUS = 2,
    IOV_TDMTX_TXPRI = 3,
    IOV_TDMTX_DEFER = 4,
    IOV_TDMTX_TXA = 5,
    IOV_TDMTX_CFG = 6,
    IOV_TDMTX_LAST
};

/**
 * The number of variables in wl macstat cnt struct.
 * (wl_cnt_ge40mcst_v1_t, wl_cnt_lt40mcst_v1_t, wl_cnt_v_le10_mcst_t)
 */
#define WL_CNT_MCST_VAR_NUM 64
/* sizeof(wl_cnt_ge40mcst_v1_t), sizeof(wl_cnt_lt40mcst_v1_t), and
 * sizeof(wl_cnt_v_le10_mcst_t) */
#define WL_CNT_MCST_STRUCT_SZ ((uint32)sizeof(uint32) * WL_CNT_MCST_VAR_NUM)
#define WL_CNT_REV80_MCST_STRUCT_SZ ((uint32)sizeof(wl_cnt_ge80mcst_v1_t))
#define WL_CNT_REV80_MCST_TXFUNFlW_STRUCT_FIXED_SZ                             \
    ((uint32)OFFSETOF(wl_cnt_ge80_txfunfl_v1_t, txfunfl))
#define WL_CNT_REV80_MCST_TXFUNFl_STRUCT_SZ(fcnt)                              \
    (WL_CNT_REV80_MCST_TXFUNFlW_STRUCT_FIXED_SZ + (fcnt * sizeof(uint32)))
#define WL_CNT_REV80_MCST_TXFUNFlW_STRUCT_SZ                                   \
    (WL_CNT_REV80_MCST_TXFUNFl_STRUCT_SZ(NFIFO_EXT))

#define WL_CNT_MCXST_STRUCT_SZ ((uint32)sizeof(wl_cnt_ge64mcxst_v1_t))

#define WL_CNT_HE_STRUCT_SZ ((uint32)sizeof(wl_he_cnt_wlc_t))

#define WL_CNT_SECVLN_STRUCT_SZ ((uint32)sizeof(wl_secvln_cnt_t))

#define WL_CNT_HE_OMI_STRUCT_SZ ((uint32)sizeof(wl_he_omi_cnt_wlc_v1_t))
#define INVALID_CNT_VAL (uint32)(-1)

#define WL_XTLV_CNTBUF_MAX_SIZE                                                \
    ((uint32)(OFFSETOF(wl_cnt_info_t, data)) + (uint32)BCM_XTLV_HDR_SIZE +     \
     (uint32)sizeof(wl_cnt_wlc_t) + (uint32)BCM_XTLV_HDR_SIZE +                \
     WL_CNT_MCST_STRUCT_SZ + (uint32)BCM_XTLV_HDR_SIZE +                       \
     WL_CNT_MCXST_STRUCT_SZ)

#define WL_CNTBUF_MAX_SIZE                                                     \
    MAX(WL_XTLV_CNTBUF_MAX_SIZE, (uint32)sizeof(wl_cnt_ver_11_t))

/* Please refer to the twiki for counters addition/deletion.
 * http://hwnbu-twiki.sj.broadcom.com/bin/view/Mwgroup/WlCounters#Counter_Edition
 */

/** Top structure of counters IOVar buffer */
typedef struct {
    uint16 version; /**< see definition of WL_CNT_T_VERSION */
    uint16 datalen; /**< length of data including all paddings. */
    uint8 data[];   /**< variable length payload:
                     * 1 or more bcm_xtlv_t type of tuples.
                     * each tuple is padded to multiple of 4 bytes.
                     * 'datalen' field of this structure includes all paddings.
                     */
} wl_cnt_info_t;

/* Top structure of subcounters IOVar buffer
 * Whenever we make any change in this structure
 * WL_SUBCNTR_IOV_VER should be updated accordingly
 * The structure definition should remain consistant b/w
 * FW and wl/WLM app.
 */
typedef struct {
    uint16 version;          /* Version of IOVAR structure. Used for backward
                              * compatibility in future. Whenever we make any
                              * changes to this structure then value of
                              * WL_SUBCNTR_IOV_VER          needs to be updated properly.
                              */
    uint16 length;           /* length in bytes of this structure */
    uint16 counters_version; /* see definition of WL_CNT_T_VERSION
                              * wl app will send the version of counters
                              * which is used to calculate the offset of
                              * counters. It must match the version of counters
                              * FW is using else FW will return error with his
                              * version of counters set in this field.
                              */
    uint16
        num_subcounters; /* Number of counter offset passed by wl app to FW. */
    uint32 data[1];      /* variable length payload:
                          * Offsets to the counters will be passed to FW
                          * throught this data field. FW will return the value of
                          * counters      at the offsets passed by wl app in this fiels
                          * itself.
                          */
} wl_subcnt_info_t;

/* Top structure of counters TLV version IOVar buffer
 * The structure definition should remain consistant b/w
 * FW and wl/WLM app.
 */
typedef struct {
    uint16 version; /* Version of IOVAR structure. Added for backward
                     * compatibility feature. If any changes are done,
                     * WL_TLV_IOV_VER need to be updated.
                     */
    uint16 length;  /* total len in bytes of this structure + payload */
    uint16 counters_version; /* See definition of WL_CNT_VERSION_XTLV
                              * wl app will update counter tlv version to be
                              * used so to calculate offset of supported TLVs.
                              * If there is a mismatch in the version, FW will
                              * update an error
                              */
    uint16 num_tlv;          /* Max number of TLV info passed by FW to WL app.
                              * and vice-versa
                              */
    uint32 data[];           /* variable length payload:
                              * This stores the tlv as supported by F/W to the wl app.
                              * This table is required to compute subcounter offsets at
                              * WLapp end.
                              */
} wl_cntr_tlv_info_t;

/** wlc layer counters */
typedef struct {
    /* transmit stat counters */
    uint32 txframe;   /**< tx data frames */
    uint32 txbyte;    /**< tx data bytes */
    uint32 txretrans; /**< tx mac retransmits */
    uint32 txerror;   /**< tx data errors (derived: sum of others) */
    uint32 txctl;     /**< tx management frames */
    uint32 txprshort; /**< tx short preamble frames */
    uint32 txserr;    /**< tx status errors */
    uint32 txnobuf;   /**< tx out of buffers errors */
    uint32 txnoassoc; /**< tx discard because we're not associated */
    uint32 txrunt;    /**< tx runt frames */
    uint32 txchit;    /**< tx header cache hit (fastpath) */
    uint32 txcmiss;   /**< tx header cache miss (slowpath) */

    /* transmit chip error counters */
    uint32 txuflo;   /**< tx fifo underflows */
    uint32 txphyerr; /**< tx phy errors (indicated in tx status) */
    uint32 txphycrs;

    /* receive stat counters */
    uint32 rxframe;     /**< rx data frames */
    uint32 rxbyte;      /**< rx data bytes */
    uint32 rxerror;     /**< rx data errors (derived: sum of others) */
    uint32 rxctl;       /**< rx management frames */
    uint32 rxnobuf;     /**< rx out of buffers errors */
    uint32 rxnondata;   /**< rx non data frames in the data channel errors */
    uint32 rxbadds;     /**< rx bad DS errors */
    uint32 rxbadcm;     /**< rx bad control or management frames */
    uint32 rxfragerr;   /**< rx fragmentation errors */
    uint32 rxrunt;      /**< rx runt frames */
    uint32 rxgiant;     /**< rx giant frames */
    uint32 rxnoscb;     /**< rx no scb error */
    uint32 rxbadproto;  /**< rx invalid frames */
    uint32 rxbadsrcmac; /**< rx frames with Invalid Src Mac */
    uint32 rxbadda;     /**< rx frames tossed for invalid da */
    uint32 rxfilter;    /**< rx frames filtered out */

    /* receive chip error counters */
    uint32 rxoflo;        /**< rx fifo overflow errors */
    uint32 rxuflo[NFIFO]; /**< rx dma descriptor underflow errors */

    uint32 d11cnt_txrts_off;   /**< d11cnt txrts value when reset d11cnt */
    uint32 d11cnt_rxcrc_off;   /**< d11cnt rxcrc value when reset d11cnt */
    uint32 d11cnt_txnocts_off; /**< d11cnt txnocts value when reset d11cnt */

    /* misc counters */
    uint32 dmade; /**< tx/rx dma descriptor errors */
    uint32 dmada; /**< tx/rx dma data errors */
    uint32 dmape; /**< tx/rx dma descriptor protocol errors */
    uint32 reset; /**< reset count */
    uint32 tbtt;  /**< cnts the TBTT int's */
    uint32 txdmawar;
    uint32 pkt_callback_reg_fail; /**< callbacks register failure */

    /* 802.11 MIB counters, pp. 614 of 802.11 reaff doc. */
    uint32 txfrag;   /**< dot11TransmittedFragmentCount */
    uint32 txmulti;  /**< dot11MulticastTransmittedFrameCount */
    uint32 txfail;   /**< dot11FailedCount */
    uint32 txretry;  /**< dot11RetryCount */
    uint32 txretrie; /**< dot11MultipleRetryCount */
    uint32 rxdup;    /**< dot11FrameduplicateCount */
    uint32 txrts;    /**< dot11RTSSuccessCount */
    uint32 txnocts;  /**< dot11RTSFailureCount */
    uint32 txnoack;  /**< dot11ACKFailureCount */
    uint32 rxfrag;   /**< dot11ReceivedFragmentCount */
    uint32 rxmulti;  /**< dot11MulticastReceivedFrameCount */
    uint32 rxcrc;    /**< dot11FCSErrorCount */
    uint32 txfrmsnt; /**< dot11TransmittedFrameCount (bogus MIB?) */
    uint32 rxundec;  /**< dot11WEPUndecryptableCount */

    /* WPA2 counters (see rxundec for DecryptFailureCount) */
    uint32 tkipmicfaill; /**< TKIPLocalMICFailures */
    uint32 tkipcntrmsr;  /**< TKIPCounterMeasuresInvoked */
    uint32 tkipreplay;   /**< TKIPReplays */
    uint32 ccmpfmterr;   /**< CCMPFormatErrors */
    uint32 ccmpreplay;   /**< CCMPReplays */
    uint32 ccmpundec;    /**< CCMPDecryptErrors */
    uint32 fourwayfail;  /**< FourWayHandshakeFailures */
    uint32 wepundec;     /**< dot11WEPUndecryptableCount */
    uint32 wepicverr;    /**< dot11WEPICVErrorCount */
    uint32 decsuccess;   /**< DecryptSuccessCount */
    uint32 tkipicverr;   /**< TKIPICVErrorCount */
    uint32 wepexcluded;  /**< dot11WEPExcludedCount */

    uint32 txchanrej;   /**< Tx frames suppressed due to channel rejection */
    uint32 psmwds;      /**< Count PSM watchdogs */
    uint32 phywatchdog; /**< Count Phy watchdogs (triggered by ucode) */

    /* MBSS counters, AP only */
    uint32 prq_entries_handled;    /**< PRQ entries read in */
    uint32 prq_undirected_entries; /**<    which were bcast bss & ssid */
    uint32 prq_bad_entries;     /**<    which could not be translated to info */
    uint32 atim_suppress_count; /**< TX suppressions on ATIM fifo */
    uint32
        bcn_template_not_ready; /**< Template marked in use on send bcn ... */
    uint32 bcn_template_not_ready_done; /**< ...but "DMA done" interrupt rcvd */
    uint32 late_tbtt_dpc;               /**< TBTT DPC did not happen in time */

    /* per-rate receive stat counters */
    uint32 rx1mbps;   /**< packets rx at 1Mbps */
    uint32 rx2mbps;   /**< packets rx at 2Mbps */
    uint32 rx5mbps5;  /**< packets rx at 5.5Mbps */
    uint32 rx6mbps;   /**< packets rx at 6Mbps */
    uint32 rx9mbps;   /**< packets rx at 9Mbps */
    uint32 rx11mbps;  /**< packets rx at 11Mbps */
    uint32 rx12mbps;  /**< packets rx at 12Mbps */
    uint32 rx18mbps;  /**< packets rx at 18Mbps */
    uint32 rx24mbps;  /**< packets rx at 24Mbps */
    uint32 rx36mbps;  /**< packets rx at 36Mbps */
    uint32 rx48mbps;  /**< packets rx at 48Mbps */
    uint32 rx54mbps;  /**< packets rx at 54Mbps */
    uint32 rx108mbps; /**< packets rx at 108mbps */
    uint32 rx162mbps; /**< packets rx at 162mbps */
    uint32 rx216mbps; /**< packets rx at 216 mbps */
    uint32 rx270mbps; /**< packets rx at 270 mbps */
    uint32 rx324mbps; /**< packets rx at 324 mbps */
    uint32 rx378mbps; /**< packets rx at 378 mbps */
    uint32 rx432mbps; /**< packets rx at 432 mbps */
    uint32 rx486mbps; /**< packets rx at 486 mbps */
    uint32 rx540mbps; /**< packets rx at 540 mbps */

    uint32 rfdisable; /**< count of radio disables */

    uint32 txexptime; /**< Tx frames suppressed due to timer expiration */

    uint32 txmpdu_sgi;  /**< count for sgi transmit */
    uint32 rxmpdu_sgi;  /**< count for sgi received */
    uint32 txmpdu_stbc; /**< count for stbc transmit */
    uint32 rxmpdu_stbc; /**< count for stbc received */

    uint32 rxundec_mcst; /**< dot11WEPUndecryptableCount */

    /* WPA2 counters (see rxundec for DecryptFailureCount) */
    uint32 tkipmicfaill_mcst; /**< TKIPLocalMICFailures */
    uint32 tkipcntrmsr_mcst;  /**< TKIPCounterMeasuresInvoked */
    uint32 tkipreplay_mcst;   /**< TKIPReplays */
    uint32 ccmpfmterr_mcst;   /**< CCMPFormatErrors */
    uint32 ccmpreplay_mcst;   /**< CCMPReplays */
    uint32 ccmpundec_mcst;    /**< CCMPDecryptErrors */
    uint32 fourwayfail_mcst;  /**< FourWayHandshakeFailures */
    uint32 wepundec_mcst;     /**< dot11WEPUndecryptableCount */
    uint32 wepicverr_mcst;    /**< dot11WEPICVErrorCount */
    uint32 decsuccess_mcst;   /**< DecryptSuccessCount */
    uint32 tkipicverr_mcst;   /**< TKIPICVErrorCount */
    uint32 wepexcluded_mcst;  /**< dot11WEPExcludedCount */

    uint32 dma_hang; /**< count for dma hang */
    uint32 reinit;   /**< count for reinit */

    uint32 pstatxucast; /**< count of ucast frames xmitted on all psta assoc */
    uint32 pstatxnoassoc; /**< count of txnoassoc frames xmitted on all psta
                             assoc */
    uint32 pstarxucast; /**< count of ucast frames received on all psta assoc */
    uint32 pstarxbcmc;  /**< count of bcmc frames received on all psta */
    uint32 pstatxbcmc;  /**< count of bcmc frames transmitted on all psta */

    uint32 cso_passthrough; /**< hw cso required but passthrough */
    uint32 cso_normal;      /**< hw cso hdr for normal process */
    uint32 chained;         /**< number of frames chained */
    uint32 chainedsz1;      /**< number of chain size 1 frames */
    uint32 unchained;       /**< number of frames not chained */
    uint32 maxchainsz;      /**< max chain size so far */
    uint32 currchainsz;     /**< current chain size */
    uint32 pciereset;       /**< Secondary Bus Reset issued by driver */
    uint32 cfgrestore;      /**< configspace restore by driver */
    uint32 reinitreason[NREINITREASONCOUNT]; /**< reinitreason counters; 0:
                                                Unknown reason */
    uint32 rxrtry;
    uint32 rxmpdu_mu; /**< Number of MU MPDUs received */

    /* detailed control/management frames */
    uint32 txbar;        /**< Number of TX BAR */
    uint32 rxbar;        /**< Number of RX BAR */
    uint32 txpspoll;     /**< Number of TX PS-poll */
    uint32 rxpspoll;     /**< Number of RX PS-poll */
    uint32 txnull;       /**< Number of TX NULL_DATA */
    uint32 rxnull;       /**< Number of RX NULL_DATA */
    uint32 txqosnull;    /**< Number of TX NULL_QoSDATA */
    uint32 rxqosnull;    /**< Number of RX NULL_QoSDATA */
    uint32 txassocreq;   /**< Number of TX ASSOC request */
    uint32 rxassocreq;   /**< Number of RX ASSOC request */
    uint32 txreassocreq; /**< Number of TX REASSOC request */
    uint32 rxreassocreq; /**< Number of RX REASSOC request */
    uint32 txdisassoc;   /**< Number of TX DISASSOC */
    uint32 rxdisassoc;   /**< Number of RX DISASSOC */
    uint32 txassocrsp;   /**< Number of TX ASSOC response */
    uint32 rxassocrsp;   /**< Number of RX ASSOC response */
    uint32 txreassocrsp; /**< Number of TX REASSOC response */
    uint32 rxreassocrsp; /**< Number of RX REASSOC response */
    uint32 txauth;       /**< Number of TX AUTH */
    uint32 rxauth;       /**< Number of RX AUTH */
    uint32 txdeauth;     /**< Number of TX DEAUTH */
    uint32 rxdeauth;     /**< Number of RX DEAUTH */
    uint32 txprobereq;   /**< Number of TX probe request */
    uint32 rxprobereq;   /**< Number of RX probe request */
    uint32 txprobersp;   /**< Number of TX probe response */
    uint32 rxprobersp;   /**< Number of RX probe response */
    uint32 txaction;     /**< Number of TX action frame */
    uint32 rxaction;     /**< Number of RX action frame */
    uint32 ampdu_wds;    /**< Number of AMPDU watchdogs */
    uint32 txlost;       /**< Number of lost packets reported in txs */
    uint32 txdatamcast;  /**< Number of TX multicast data packets */
    uint32 txdatabcast;  /**< Number of TX broadcast data packets */
    uint32 psmxwds;      /**< Number of PSMx watchdogs */
    uint32 rxback;
    uint32 txback;
    uint32 p2p_tbtt;      /**< Number of P2P TBTT Events */
    uint32 p2p_tbtt_miss; /**< Number of P2P TBTT Events Miss */
    uint32 txqueue_start;
    uint32 txqueue_end;
    uint32 txbcast;          /* Broadcast TransmittedFrameCount */
    uint32 txdropped;        /* tx dropped pkts */
    uint32 rxbcast;          /* BroadcastReceivedFrameCount */
    uint32 rxdropped;        /* rx dropped pkts (derived: sum of others) */
    uint32 txq_end_assoccb;  /* forced txqueue_end callback fired in assoc */
    uint32 tx_toss_cnt;      /* number of tx packets tossed */
    uint32 rx_toss_cnt;      /* number of rx packets tossed	*/
    uint32 last_tx_toss_rsn; /* reason because of which last tx pkt tossed */
    uint32 last_rx_toss_rsn; /* reason because of which last rx pkt tossed */
    uint32 pmk_badlen_cnt;   /* number of invalid pmk len */
    uint32
        txbar_notx; /* number of TX BAR not sent (maybe supressed or muted) */
    uint32
        txbar_noack; /* number of TX BAR sent, but not acknowledged by peer */
    uint32 rxfrag_agedout; /**< # of aged out rx fragmentation */

    /* Do not remove or rename in the middle of this struct.
     * All counter variables have to be of uint32.
     * Please follow the instruction in
     * http://hwnbu-twiki.sj.broadcom.com/bin/view/Mwgroup/WlCounters#Counter_Edition
     */
} wl_cnt_wlc_t;

/* he counters Version 1 */
#define HE_COUNTERS_V1 (1)
typedef struct wl_he_cnt_wlc_v1 {
    uint32 he_rxtrig_myaid;
    uint32 he_rxtrig_rand;
    uint32 he_colormiss_cnt;
    uint32 he_txmampdu;
    uint32 he_txmtid_back;
    uint32 he_rxmtid_back;
    uint32 he_rxmsta_back;
    uint32 he_txfrag;
    uint32 he_rxdefrag;
    uint32 he_txtrig;
    uint32 he_rxtrig_basic;
    uint32 he_rxtrig_murts;
    uint32 he_rxtrig_bsrp;
    uint32 he_rxdlmu;
    uint32 he_physu_rx;
    uint32 he_phyru_rx;
    uint32 he_txtbppdu;
} wl_he_cnt_wlc_v1_t;

/* he counters Version 2 */
#define HE_COUNTERS_V2 (2)
typedef struct wl_he_cnt_wlc_v2 {
    uint16 version;
    uint16 len;
    uint32 he_rxtrig_myaid;  /**< rxed valid trigger frame with myaid */
    uint32 he_rxtrig_rand;   /**< rxed valid trigger frame with random aid */
    uint32 he_colormiss_cnt; /**< for bss color mismatch cases */
    uint32 he_txmampdu;      /**< for multi-TID AMPDU transmission */
    uint32 he_txmtid_back;   /**< for multi-TID BACK transmission */
    uint32 he_rxmtid_back;   /**< reception of multi-TID BACK */
    uint32 he_rxmsta_back;   /**< reception of multi-STA BACK */
    uint32 he_txfrag;        /**< transmission of Dynamic fragmented packets */
    uint32 he_rxdefrag;      /**< reception of dynamic fragmented packets */
    uint32 he_txtrig;        /**< transmission of trigger frames */
    uint32 he_rxtrig_basic;  /**< reception of basic trigger frame */
    uint32 he_rxtrig_murts;  /**< reception of MU-RTS trigger frame */
    uint32 he_rxtrig_bsrp;   /**< reception of BSR poll trigger frame */
    uint32 he_rxdlmu;        /**< reception of DL MU PPDU */
    uint32 he_physu_rx;      /**< reception of SU frame */
    uint32 he_phyru_rx;      /**< reception of RU frame */
    uint32 he_txtbppdu;      /**< increments on transmission of every TB PPDU */
    uint32 he_null_tbppdu;   /**< null TB PPDU's sent as a response to basic
                                trigger frame */
} wl_he_cnt_wlc_v2_t;

/* he counters Version 3 */
#define WL_RU_TYPE_MAX 6
#define HE_COUNTERS_V3 (3)

typedef struct wl_he_cnt_wlc_v3 {
    uint16 version;
    uint16 len;
    uint32 he_rxtrig_myaid;   /**< rxed valid trigger frame with myaid */
    uint32 he_rxtrig_rand;    /**< rxed valid trigger frame with random aid */
    uint32 he_colormiss_cnt;  /**< for bss color mismatch cases */
    uint32 he_txmampdu;       /**< for multi-TID AMPDU transmission */
    uint32 he_txmtid_back;    /**< for multi-TID BACK transmission */
    uint32 he_rxmtid_back;    /**< reception of multi-TID BACK */
    uint32 he_rxmsta_back;    /**< reception of multi-STA BACK */
    uint32 he_txfrag;         /**< transmission of Dynamic fragmented packets */
    uint32 he_rxdefrag;       /**< reception of dynamic fragmented packets */
    uint32 he_txtrig;         /**< transmission of trigger frames */
    uint32 he_rxtrig_basic;   /**< reception of basic trigger frame */
    uint32 he_rxtrig_murts;   /**< reception of MU-RTS trigger frame */
    uint32 he_rxtrig_bsrp;    /**< reception of BSR poll trigger frame */
    uint32 he_rxhemuppdu_cnt; /**< rxing HE MU PPDU */
    uint32 he_physu_rx;       /**< reception of SU frame */
    uint32 he_phyru_rx;       /**< reception of RU frame */
    uint32 he_txtbppdu;    /**< increments on transmission of every TB PPDU */
    uint32 he_null_tbppdu; /**< null TB PPDU's sent as a response to basic
                              trigger frame */
    uint32 he_rxhesuppdu_cnt;   /**< rxing SU PPDU */
    uint32 he_rxhesureppdu_cnt; /**< rxing Range Extension(RE) SU PPDU */
    uint32 he_null_zero_agg; /**< null AMPDU's transmitted in response to basic
                              * trigger because of zero aggregation
                              */
    uint32 he_null_bsrp_rsp; /**< null AMPDU's txed in response to BSR poll */
    uint32 he_null_fifo_empty; /**< null AMPDU's in response to basic trigger
                                * because of no frames in fifo's
                                */
    uint32 he_myAID_cnt;
    uint32 he_rxtrig_bfm_cnt;
    uint32 he_rxtrig_mubar;
    uint32 rxheru[WL_RU_TYPE_MAX]; /**< HE of rx pkts */
    uint32 txheru[WL_RU_TYPE_MAX];
    uint32 he_mgmt_tbppdu;
    uint32 he_cs_req_tx_cancel;
    uint32 he_wrong_nss;
    uint32 he_trig_unsupp_rate;
    uint32 he_rxtrig_nfrp;
    uint32 he_rxtrig_bqrp;
    uint32 he_rxtrig_gcrmubar;
} wl_he_cnt_wlc_v3_t;

/* he counters Version 4 */
#define HE_COUNTERS_V4 (4)
typedef struct wl_he_cnt_wlc_v4 {
    uint16 version;
    uint16 len;
    uint32 he_rxtrig_myaid;  /**< rxed valid trigger frame with myaid */
    uint32 he_rxtrig_rand;   /**< rxed valid trigger frame with random aid */
    uint32 he_colormiss_cnt; /**< for bss color mismatch cases */
    uint32 he_txmampdu;      /**< for multi-TID AMPDU transmission */
    uint32 he_txmtid_back;   /**< for multi-TID BACK transmission */
    uint32 he_rxmtid_back;   /**< reception of multi-TID BACK */
    uint32 he_rxmsta_back;   /**< reception of multi-STA BACK */
    uint32 he_txfrag;        /**< transmission of Dynamic fragmented packets */
    uint32 he_rxdefrag;      /**< reception of dynamic fragmented packets */
    uint32 he_txtrig;        /**< transmission of trigger frames */
    uint32 he_rxtrig_basic;  /**< reception of basic trigger frame */
    uint32 he_rxtrig_murts;  /**< reception of MU-RTS trigger frame */
    uint32 he_rxtrig_bsrp;   /**< reception of BSR poll trigger frame */
    uint32 he_rxtsrt_hemuppdu_cnt; /**< rxing HE MU PPDU */
    uint32 he_physu_rx;            /**< reception of SU frame */
    uint32 he_phyru_rx;            /**< reception of RU frame */
    uint32 he_txtbppdu;    /**< increments on transmission of every TB PPDU */
    uint32 he_null_tbppdu; /**< null TB PPDU's sent as a response to basic
                              trigger frame */
    uint32 he_rxstrt_hesuppdu_cnt;   /**< rxing SU PPDU */
    uint32 he_rxstrt_hesureppdu_cnt; /**< rxing Range Extension(RE) SU PPDU */
    uint32 he_null_zero_agg; /**< null AMPDU's transmitted in response to basic
                              * trigger because of zero aggregation
                              */
    uint32 he_null_bsrp_rsp; /**< null AMPDU's txed in response to BSR poll */
    uint32 he_null_fifo_empty; /**< null AMPDU's in response to basic trigger
                                * because of no frames in fifo's
                                */
    uint32 he_myAID_cnt;
    uint32 he_rxtrig_bfm_cnt;
    uint32 he_rxtrig_mubar;
    uint32 rxheru[WL_RU_TYPE_MAX]; /**< HE of rx pkts */
    uint32 txheru[WL_RU_TYPE_MAX];
    uint32 he_mgmt_tbppdu;
    uint32 he_cs_req_tx_cancel;
    uint32 he_wrong_nss;
    uint32 he_trig_unsupp_rate;
    uint32 he_rxtrig_nfrp;
    uint32 he_rxtrig_bqrp;
    uint32 he_rxtrig_gcrmubar;
    uint32 he_rxtrig_basic_htpack; /**< triggers received with HTP ack policy */
    uint32 he_rxtrig_ed_cncl;      /**< count of cancelled packets
                                    * becasue of cs_req in trigger frame
                                    */
    uint32 he_rxtrig_suppr_null_tbppdu; /**<  count of null frame sent becasue
                                         * of suppression scenarios
                                         */
    uint32 he_ulmu_disable; /**< number of UL MU disable scenario's handled in
                               ucode */
    uint32 he_ulmu_data_disable; /**<number of UL MU data disable scenarios
                                  * handled in ucode
                                  */
} wl_he_cnt_wlc_v4_t;

#ifndef HE_COUNTERS_VERSION_ENABLED
#define HE_COUNTERS_VERSION (HE_COUNTERS_V1)
typedef wl_he_cnt_wlc_v1_t wl_he_cnt_wlc_t;
#endif /* HE_COUNTERS_VERSION_ENABLED */

/* he omi counters Version 1 */
#define HE_OMI_COUNTERS_V1 (1)
typedef struct wl_he_omi_cnt_wlc_v1 {
    uint16 version;
    uint16 len;
    uint32 he_omitx_sched;   /* Count for total number of OMIs scheduled */
    uint32 he_omitx_success; /* Count for OMI Tx success */
    uint32 he_omitx_retries; /* Count for OMI retries as TxDone not set */
    uint32 he_omitx_dur;     /* Accumulated duration of OMI completion time */
    uint32 he_omitx_ulmucfg; /* count for UL MU enable/disable change req */
    uint32 he_omitx_ulmucfg_ack; /* count for UL MU enable/disable req txed
                                    successfully */
    uint32 he_omitx_txnsts;      /* count for Txnsts change req */
    uint32
        he_omitx_txnsts_ack; /* count for Txnsts change req txed successfully */
    uint32 he_omitx_rxnss;   /* count for Rxnss change req */
    uint32
        he_omitx_rxnss_ack;  /* count for Rxnss change req txed successfully */
    uint32 he_omitx_bw;      /* count for BW change req */
    uint32 he_omitx_bw_ack;  /* count for BW change req txed successfully */
    uint32 he_omitx_ersudis; /* count for ER SU enable/disable req */
    uint32 he_omitx_ersudis_ack; /* count for ER SU enable/disable req txed
                                    successfully */
    uint32
        he_omitx_dlmursdrec; /* count for Resound recommendation change req */
    uint32 he_omitx_dlmursdrec_ack; /* count for Resound recommendation req txed
                                       successfully */
} wl_he_omi_cnt_wlc_v1_t;

/* WL_IFSTATS_XTLV_WL_SLICE_TXBF */
/* beamforming counters version 1 */
#define TXBF_ECOUNTERS_V1 (1u)
#define WL_TXBF_CNT_ARRAY_SZ (8u)
typedef struct wl_txbf_ecounters_v1 {
    uint16 version;
    uint16 len;
    /* transmit beamforming stats */
    uint16 txndpa;   /* null data packet announcements */
    uint16 txndp;    /* null data packets */
    uint16 txbfpoll; /* beamforming report polls */
    uint16 txsf;     /* subframes */
    uint16 txcwrts;  /* contention window rts */
    uint16 txcwcts;  /* contention window cts */
    uint16 txbfm;
    /* receive beamforming stats */
    uint16 rxndpa_u; /* unicast NDPAs */
    uint16 rxndpa_m; /* multicast NDPAs */
    uint16 rxbfpoll; /* unicast bf-polls */
    uint16 bferpt;   /* beamforming reports */
    uint16 rxsf;
    uint16 rxcwrts;
    uint16 rxcwcts;
    uint16 rxtrig_bfpoll;
    uint16 unused_uint16; /* pad */
    /* sounding stats - interval capture */
    uint16 rxnontb_sound[WL_TXBF_CNT_ARRAY_SZ]; /* non-TB sounding for last 8
                                                   captures */
    uint16 rxtb_sound[WL_TXBF_CNT_ARRAY_SZ];    /* TB sounding count for last 8
                                                   captures */
    uint32
        cap_dur_ms[WL_TXBF_CNT_ARRAY_SZ]; /* last 8 capture durations (in ms) */
    uint32 cap_last_ts;                   /* timestamp of last sample capture */
} wl_txbf_ecounters_v1_t;

/* security vulnerabilities counters */
typedef struct {
    uint32 ie_unknown;          /* number of unknown IEs */
    uint32 ie_invalid_length;   /* number of IEs with invalid length */
    uint32 ie_invalid_data;     /* number of IEs with invalid data */
    uint32 ipv6_invalid_length; /* number of IPv6 packets with invalid payload
                                   length */
} wl_secvln_cnt_t;

/* Reinit reasons - do not put anything else other than reinit reasons here */
typedef struct {
    uint32 rsn[WL_REINIT_RC_LAST];
} reinit_rsns_t;

/* MACXSTAT counters for ucodex (corerev >= 64) */
typedef struct {
    uint32 macxsusp;
    uint32 m2vmsg;
    uint32 v2mmsg;
    uint32 mboxout;
    uint32 musnd;
    uint32 sfb2v;
} wl_cnt_ge64mcxst_v1_t;

/** MACSTAT counters for ucode (corerev >= 40) */
typedef struct {
    /* MAC counters: 32-bit version of d11.h's macstat_t */
    uint32 txallfrm;   /**< total number of frames sent, incl. Data, ACK, RTS,
                        * CTS,   Control Management (includes retransmissions)
                        */
    uint32 txrtsfrm;   /**< number of RTS sent out by the MAC */
    uint32 txctsfrm;   /**< number of CTS sent out by the MAC */
    uint32 txackfrm;   /**< number of ACK frames sent out */
    uint32 txdnlfrm;   /**< number of Null-Data transmission generated from
                          template  */
    uint32 txbcnfrm;   /**< beacons transmitted */
    uint32 txfunfl[6]; /**< per-fifo tx underflows */
    uint32 txampdu;    /**< number of AMPDUs transmitted */
    uint32 txmpdu;     /**< number of MPDUs transmitted */
    uint32 txtplunfl;  /**< Template underflows (mac was too slow to transmit
                        * ACK/CTS  or BCN)
                        */
    uint32 txphyerror; /**< Transmit phy error, type of error is reported in
                        * tx-status for driver enqueued frames
                        */
    uint32 pktengrxducast; /**< unicast frames rxed by the pkteng code */
    uint32 pktengrxdmcast; /**< multicast frames rxed by the pkteng code */
    uint32 rxfrmtoolong;   /**< Received frame longer than legal limit (2346
                              bytes) */
    uint32 rxfrmtooshrt;   /**< Received frame did not contain enough bytes for
                              its frame type */
    uint32 rxanyerr; /**< Any RX error that is not counted by other counters. */
    uint32 rxbadfcs; /**< number of frames for which the CRC check failed in the
                        MAC */
    uint32 rxbadplcp;   /**< parity check of the PLCP header failed */
    uint32 rxcrsglitch; /**< PHY was able to correlate the preamble but not the
                           header */
    uint32 rxstrt;      /**< Number of received frames with a good PLCP
                         * (i.e. passing parity check)
                         */
    uint32 rxdtucastmbss; /**< number of received DATA frames with good FCS and
                             matching RA */
    uint32 rxmgucastmbss; /**< number of received mgmt frames with good FCS and
                             matching RA */
    uint32 rxctlucast;    /**< number of received CNTRL frames with good FCS and
                             matching RA */
    uint32 rxrtsucast;    /**< number of unicast RTS addressed to the MAC (good
                             FCS) */
    uint32 rxctsucast;    /**< number of unicast CTS addressed to the MAC (good
                             FCS) */
    uint32 rxackucast;    /**< number of ucast ACKS received (good FCS) */
    uint32 rxdtocast;     /**< number of received DATA frames (good FCS and not
                             matching RA) */
    uint32 rxmgocast;     /**< number of received MGMT frames (good FCS and not
                             matching RA) */
    uint32 rxctlocast;    /**< number of received CNTRL frame (good FCS and not
                             matching RA) */
    uint32 rxrtsocast; /**< number of received RTS not addressed to the MAC */
    uint32 rxctsocast; /**< number of received CTS not addressed to the MAC */
    uint32 rxdtmcast;  /**< number of RX Data multicast frames received by the
                          MAC */
    uint32 rxmgmcast;  /**< number of RX Management multicast frames received by
                          the MAC */
    uint32 rxctlmcast; /**< number of RX Control multicast frames received by
                        * the MAC (unlikely to see these)
                        */
    uint32 rxbeaconmbss;  /**< beacons received from member of BSS */
    uint32 rxdtucastobss; /**< number of unicast frames addressed to the MAC
                           * from other BSS (WDS FRAME)
                           */
    uint32 rxbeaconobss;  /**< beacons received from other BSS */
    uint32 rxrsptmout; /**< number of response timeouts for transmitted frames
                        * expecting a response
                        */
    uint32 bcntxcancl; /**< transmit beacons canceled due to receipt of beacon
                          (IBSS) */
    uint32
        rxnodelim; /**< number of no valid delimiter detected by ampdu parser */
    uint32 rxf0ovfl;    /**< number of receive fifo 0 overflows */
    uint32 rxf1ovfl;    /**< number of receive fifo 1 overflows */
    uint32 rxhlovfl;    /**< number of length / header fifo overflows */
    uint32 missbcn_dbg; /**< number of beacon missed to receive */
    uint32 pmqovfl;     /**< number of PMQ overflows */
    uint32 rxcgprqfrm;  /**< number of received Probe requests that made it into
                         * the PRQ fifo
                         */
    uint32 rxcgprsqovfl; /**< Rx Probe Request Que overflow in the AP */
    uint32 txcgprsfail;  /**< Tx Probe Response Fail. AP sent probe response but
                          * did  not get ACK
                          */
    uint32 txcgprssuc;   /**< Tx Probe Response Success (ACK was received) */
    uint32 prs_timeout; /**< number of probe requests that were dropped from the
                         * PRQ fifo because a probe response could not be sent
                         * out within the time limit defined in M_PRS_MAXTIME
                         */
    uint32 txrtsfail;   /**< number of rts transmission failure that reach retry
                           limit */
    uint32 txucast;     /**< number of unicast tx expecting response other than
                           cts/cwcts */
    uint32
        txinrtstxop; /**< number of data frame transmissions during rts txop */
    uint32 rxback;   /**< blockack rxcnt */
    uint32 txback;   /**< blockack txcnt */
    uint32 bphy_rxcrsglitch; /**< PHY count of bphy glitches */
    uint32 rxdrop20s;        /**< drop secondary cnt */
    uint32 rxtoolate;        /**< receive too late */
    uint32 bphy_badplcp;     /**< number of bad PLCP reception on BPHY rate */
                             /* All counter variables have to be of uint32. */
} wl_cnt_ge40mcst_v1_t;

/** MACSTAT counters for ucode (corerev < 40) */
typedef struct {
    /* MAC counters: 32-bit version of d11.h's macstat_t */
    uint32 txallfrm;   /**< total number of frames sent, incl. Data, ACK, RTS,
                        * CTS,   Control Management (includes retransmissions)
                        */
    uint32 txrtsfrm;   /**< number of RTS sent out by the MAC */
    uint32 txctsfrm;   /**< number of CTS sent out by the MAC */
    uint32 txackfrm;   /**< number of ACK frames sent out */
    uint32 txdnlfrm;   /**< number of Null-Data transmission generated from
                          template  */
    uint32 txbcnfrm;   /**< beacons transmitted */
    uint32 txfunfl[6]; /**< per-fifo tx underflows */
    uint32 txampdu;    /**< number of AMPDUs transmitted */
    uint32 txmpdu;     /**< number of MPDUs transmitted */
    uint32 txtplunfl;  /**< Template underflows (mac was too slow to transmit
                        * ACK/CTS  or BCN)
                        */
    uint32 txphyerror; /**< Transmit phy error, type of error is reported in
                        * tx-status for driver enqueued frames
                        */
    uint32 pktengrxducast; /**< unicast frames rxed by the pkteng code */
    uint32 pktengrxdmcast; /**< multicast frames rxed by the pkteng code */
    uint32 rxfrmtoolong;   /**< Received frame longer than legal limit (2346
                              bytes) */
    uint32 rxfrmtooshrt;   /**< Received frame did not contain enough bytes for
                              its frame type */
    uint32 rxanyerr; /**< Any RX error that is not counted by other counters. */
    uint32 rxbadfcs; /**< number of frames for which the CRC check failed in the
                        MAC */
    uint32 rxbadplcp;   /**< parity check of the PLCP header failed */
    uint32 rxcrsglitch; /**< PHY was able to correlate the preamble but not the
                           header */
    uint32 rxstrt;      /**< Number of received frames with a good PLCP
                         * (i.e. passing parity check)
                         */
    uint32 rxdtucastmbss; /**< number of received DATA frames with good FCS and
                             matching RA */
    uint32 rxmgucastmbss; /**< number of received mgmt frames with good FCS and
                             matching RA */
    uint32 rxctlucast;    /**< number of received CNTRL frames with good FCS and
                             matching RA */
    uint32 rxrtsucast;    /**< number of unicast RTS addressed to the MAC (good
                             FCS) */
    uint32 rxctsucast;    /**< number of unicast CTS addressed to the MAC (good
                             FCS) */
    uint32 rxackucast;    /**< number of ucast ACKS received (good FCS) */
    uint32 rxdtocast;     /**< number of received DATA frames (good FCS and not
                             matching RA) */
    uint32 rxmgocast;     /**< number of received MGMT frames (good FCS and not
                             matching RA) */
    uint32 rxctlocast;    /**< number of received CNTRL frame (good FCS and not
                             matching RA) */
    uint32 rxrtsocast; /**< number of received RTS not addressed to the MAC */
    uint32 rxctsocast; /**< number of received CTS not addressed to the MAC */
    uint32 rxdtmcast;  /**< number of RX Data multicast frames received by the
                          MAC */
    uint32 rxmgmcast;  /**< number of RX Management multicast frames received by
                          the MAC */
    uint32 rxctlmcast; /**< number of RX Control multicast frames received by
                        * the MAC (unlikely to see these)
                        */
    uint32 rxbeaconmbss;  /**< beacons received from member of BSS */
    uint32 rxdtucastobss; /**< number of unicast frames addressed to the MAC
                           * from other BSS (WDS FRAME)
                           */
    uint32 rxbeaconobss;  /**< beacons received from other BSS */
    uint32 rxrsptmout; /**< number of response timeouts for transmitted frames
                        * expecting a response
                        */
    uint32 bcntxcancl; /**< transmit beacons canceled due to receipt of beacon
                          (IBSS) */
    uint32
        rxnodelim; /**< number of no valid delimiter detected by ampdu parser */
    uint32 rxf0ovfl; /**< number of receive fifo 0 overflows */
    uint32 dbgoff46;
    uint32 dbgoff47;
    uint32 dbgoff48; /**< Used for counting txstatus queue overflow (corerev <=
                        4)  */
    uint32 pmqovfl;  /**< number of PMQ overflows */
    uint32 rxcgprqfrm; /**< number of received Probe requests that made it into
                        * the PRQ fifo
                        */
    uint32 rxcgprsqovfl; /**< Rx Probe Request Que overflow in the AP */
    uint32 txcgprsfail;  /**< Tx Probe Response Fail. AP sent probe response but
                          * did  not get ACK
                          */
    uint32 txcgprssuc;   /**< Tx Probe Response Success (ACK was received) */
    uint32 prs_timeout; /**< number of probe requests that were dropped from the
                         * PRQ fifo because a probe response could not be sent
                         * out within the time limit defined in M_PRS_MAXTIME
                         */
    uint32 txrtsfail;   /**< number of rts transmission failure that reach retry
                           limit */
    uint32 txucast;     /**< number of unicast tx expecting response other than
                           cts/cwcts */
    uint32
        txinrtstxop; /**< number of data frame transmissions during rts txop */
    uint32 rxback;   /**< blockack rxcnt */
    uint32 txback;   /**< blockack txcnt */
    uint32 bphy_rxcrsglitch; /**< PHY count of bphy glitches */
    uint32 phywatch;
    uint32 rxtoolate;    /**< receive too late */
    uint32 bphy_badplcp; /**< number of bad PLCP reception on BPHY rate */
                         /* All counter variables have to be of uint32. */
} wl_cnt_lt40mcst_v1_t;

/** MACSTAT counters for ucode (corerev >= 80) */
typedef struct {
    /* MAC counters: 32-bit version of d11.h's macstat_t */
    /* Start of PSM2HOST stats(72) block */
    uint32 txallfrm;   /**< total number of frames sent, incl. Data, ACK, RTS,
                        * CTS,   Control Management (includes retransmissions)
                        */
    uint32 txrtsfrm;   /**< number of RTS sent out by the MAC */
    uint32 txctsfrm;   /**< number of CTS sent out by the MAC */
    uint32 txackfrm;   /**< number of ACK frames sent out */
    uint32 txdnlfrm;   /**< number of Null-Data transmission generated from
                          template  */
    uint32 txbcnfrm;   /**< beacons transmitted */
    uint32 txampdu;    /**< number of AMPDUs transmitted */
    uint32 txmpdu;     /**< number of MPDUs transmitted */
    uint32 txtplunfl;  /**< Template underflows (mac was too slow to transmit
                        * ACK/CTS  or BCN)
                        */
    uint32 txphyerror; /**< Transmit phy error, type of error is reported in
                        * tx-status for driver enqueued frames
                        */
    uint32 pktengrxducast; /**< unicast frames rxed by the pkteng code */
    uint32 pktengrxdmcast; /**< multicast frames rxed by the pkteng code */
    uint32 rxfrmtoolong;   /**< Received frame longer than legal limit (2346
                              bytes) */
    uint32 rxfrmtooshrt;   /**< Received frame did not contain enough bytes for
                              its frame type */
    uint32 rxanyerr; /**< Any RX error that is not counted by other counters. */
    uint32 rxbadfcs; /**< number of frames for which the CRC check failed in the
                        MAC */
    uint32 rxbadplcp;   /**< parity check of the PLCP header failed */
    uint32 rxcrsglitch; /**< PHY was able to correlate the preamble but not the
                           header */
    uint32 rxstrt;      /**< Number of received frames with a good PLCP
                         * (i.e. passing parity check)
                         */
    uint32 rxdtucastmbss; /**< number of received DATA frames with good FCS and
                             matching RA */
    uint32 rxmgucastmbss; /**< number of received mgmt frames with good FCS and
                             matching RA */
    uint32 rxctlucast;    /**< number of received CNTRL frames with good FCS and
                             matching RA */
    uint32 rxrtsucast;    /**< number of unicast RTS addressed to the MAC (good
                             FCS) */
    uint32 rxctsucast;    /**< number of unicast CTS addressed to the MAC (good
                             FCS) */
    uint32 rxackucast;    /**< number of ucast ACKS received (good FCS) */
    uint32 rxdtocast;     /**< number of received DATA frames (good FCS and not
                             matching RA) */
    uint32 rxmgocast;     /**< number of received MGMT frames (good FCS and not
                             matching RA) */
    uint32 rxctlocast;    /**< number of received CNTRL frame (good FCS and not
                             matching RA) */
    uint32 rxrtsocast; /**< number of received RTS not addressed to the MAC */
    uint32 rxctsocast; /**< number of received CTS not addressed to the MAC */
    uint32 rxdtmcast;  /**< number of RX Data multicast frames received by the
                          MAC */
    uint32 rxmgmcast;  /**< number of RX Management multicast frames received by
                          the MAC */
    uint32 rxctlmcast; /**< number of RX Control multicast frames received by
                        * the MAC (unlikely to see these)
                        */
    uint32 rxbeaconmbss;  /**< beacons received from member of BSS */
    uint32 rxdtucastobss; /**< number of unicast frames addressed to the MAC
                           * from other BSS (WDS FRAME)
                           */
    uint32 rxbeaconobss;  /**< beacons received from other BSS */
    uint32 rxrsptmout; /**< number of response timeouts for transmitted frames
                        * expecting a response
                        */
    uint32 bcntxcancl; /**< transmit beacons canceled due to receipt of beacon
                          (IBSS) */
    uint32
        rxnodelim; /**< number of no valid delimiter detected by ampdu parser */
    uint32 missbcn_dbg; /**< number of beacon missed to receive */
    uint32 pmqovfl;     /**< number of PMQ overflows */
    uint32 rxcgprqfrm;  /**< number of received Probe requests that made it into
                         * the PRQ fifo
                         */
    uint32 rxcgprsqovfl; /**< Rx Probe Request Que overflow in the AP */
    uint32 txcgprsfail;  /**< Tx Probe Response Fail. AP sent probe response but
                          * did  not get ACK
                          */
    uint32 txcgprssuc;   /**< Tx Probe Response Success (ACK was received) */
    uint32 prs_timeout; /**< number of probe requests that were dropped from the
                         * PRQ fifo because a probe response could not be sent
                         * out within the time limit defined in M_PRS_MAXTIME
                         */
    uint32 txrtsfail;   /**< number of rts transmission failure that reach retry
                           limit */
    uint32 txucast;     /**< number of unicast tx expecting response other than
                           cts/cwcts */
    uint32
        txinrtstxop; /**< number of data frame transmissions during rts txop */
    uint32 rxback;   /**< blockack rxcnt */
    uint32 txback;   /**< blockack txcnt */
    uint32 bphy_rxcrsglitch; /**< PHY count of bphy glitches */
    uint32 rxdrop20s;        /**< drop secondary cnt */
    uint32 rxtoolate;        /**< receive too late */
    uint32 bphy_badplcp;     /**< number of bad PLCP reception on BPHY rate */
    uint32 rxtrig_myaid;     /* New counters added in corerev 80 */
    uint32 rxtrig_rand;
    uint32 goodfcs;
    uint32 colormiss;
    uint32 txmampdu;
    uint32 rxmtidback;
    uint32 rxmstaback;
    uint32 txfrag;
    /* End of PSM2HOST stats block */
    /* start of rxerror overflow counter(24) block which are modified/added in
     * corerev 80 */
    uint32 phyovfl;
    uint32 rxf0ovfl; /**< number of receive fifo 0 overflows */
    uint32 rxf1ovfl; /**< number of receive fifo 1 overflows */
    uint32 lenfovfl;
    uint32 weppeof;
    uint32 badplcp;
    uint32 msduthresh;
    uint32 strmeof;
    uint32 stsfifofull;
    uint32 stsfifoerr;
    uint32 PAD[6];
    uint32 rxerr_stat;
    uint32 ctx_fifo_full;
    uint32 PAD0[9];
    uint32 ctmode_ufc_cnt;
    uint32 PAD1[28]; /* PAD added for counter elements to be added soon */
} wl_cnt_ge80mcst_v1_t;

typedef struct {
    uint32 fifocount;
    uint32 txfunfl[];
} wl_cnt_ge80_txfunfl_v1_t;

/** MACSTAT counters for "wl counter" version <= 10 */
/*  With ucode before its macstat cnts cleaned up */
typedef struct {
    /* MAC counters: 32-bit version of d11.h's macstat_t */
    uint32 txallfrm;   /**< total number of frames sent, incl. Data, ACK, RTS,
                        * CTS,   Control Management (includes retransmissions)
                        */
    uint32 txrtsfrm;   /**< number of RTS sent out by the MAC */
    uint32 txctsfrm;   /**< number of CTS sent out by the MAC */
    uint32 txackfrm;   /**< number of ACK frames sent out */
    uint32 txdnlfrm;   /**< number of Null-Data transmission generated from
                          template  */
    uint32 txbcnfrm;   /**< beacons transmitted */
    uint32 txfunfl[6]; /**< per-fifo tx underflows */
    uint32 txfbw;      /**< transmit at fallback bw (dynamic bw) */
    uint32 PAD0;       /**< number of MPDUs transmitted */
    uint32 txtplunfl;  /**< Template underflows (mac was too slow to transmit
                        * ACK/CTS  or BCN)
                        */
    uint32 txphyerror; /**< Transmit phy error, type of error is reported in
                        * tx-status for driver enqueued frames
                        */
    uint32 pktengrxducast; /**< unicast frames rxed by the pkteng code */
    uint32 pktengrxdmcast; /**< multicast frames rxed by the pkteng code */
    uint32 rxfrmtoolong;   /**< Received frame longer than legal limit (2346
                              bytes) */
    uint32 rxfrmtooshrt;   /**< Received frame did not contain enough bytes for
                              its frame type */
    uint32 rxinvmachdr; /**< Either the protocol version != 0 or frame type not
                         * data/control/management
                         */
    uint32 rxbadfcs; /**< number of frames for which the CRC check failed in the
                        MAC */
    uint32 rxbadplcp;   /**< parity check of the PLCP header failed */
    uint32 rxcrsglitch; /**< PHY was able to correlate the preamble but not the
                           header */
    uint32 rxstrt;      /**< Number of received frames with a good PLCP
                         * (i.e. passing parity check)
                         */
    uint32 rxdfrmucastmbss; /* number of received DATA frames with good FCS and
                               matching RA */
    uint32 rxmfrmucastmbss; /* number of received mgmt frames with good FCS and
                               matching RA */
    uint32 rxcfrmucast;  /**< number of received CNTRL frames with good FCS and
                            matching RA */
    uint32 rxrtsucast;   /**< number of unicast RTS addressed to the MAC (good
                            FCS) */
    uint32 rxctsucast;   /**< number of unicast CTS addressed to the MAC (good
                            FCS) */
    uint32 rxackucast;   /**< number of ucast ACKS received (good FCS) */
    uint32 rxdfrmocast;  /**< number of received DATA frames (good FCS and not
                            matching RA) */
    uint32 rxmfrmocast;  /**< number of received MGMT frames (good FCS and not
                            matching RA) */
    uint32 rxcfrmocast;  /**< number of received CNTRL frame (good FCS and not
                            matching RA) */
    uint32 rxrtsocast;   /**< number of received RTS not addressed to the MAC */
    uint32 rxctsocast;   /**< number of received CTS not addressed to the MAC */
    uint32 rxdfrmmcast;  /**< number of RX Data multicast frames received by the
                            MAC */
    uint32 rxmfrmmcast;  /**< number of RX Management multicast frames received
                            by the MAC */
    uint32 rxcfrmmcast;  /**< number of RX Control multicast frames received by
                          * the MAC  (unlikely to see these)
                          */
    uint32 rxbeaconmbss; /**< beacons received from member of BSS */
    uint32 rxdfrmucastobss; /**< number of unicast frames addressed to the MAC
                             * from other BSS (WDS FRAME)
                             */
    uint32 rxbeaconobss;    /**< beacons received from other BSS */
    uint32 rxrsptmout; /**< number of response timeouts for transmitted frames
                        * expecting a response
                        */
    uint32 bcntxcancl; /**< transmit beacons canceled due to receipt of beacon
                          (IBSS) */
    uint32 PAD1;
    uint32 rxf0ovfl; /**< number of receive fifo 0 overflows */
    uint32 rxf1ovfl; /**< Number of receive fifo 1 overflows (obsolete) */
    uint32 rxf2ovfl; /**< Number of receive fifo 2 overflows (obsolete) */
    uint32 txsfovfl; /**< Number of transmit status fifo overflows (obsolete) */
    uint32 pmqovfl;  /**< number of PMQ overflows */
    uint32 rxcgprqfrm; /**< number of received Probe requests that made it into
                        * the PRQ fifo
                        */
    uint32 rxcgprsqovfl; /**< Rx Probe Request Que overflow in the AP */
    uint32 txcgprsfail;  /**< Tx Probe Response Fail. AP sent probe response but
                          * did  not get ACK
                          */
    uint32 txcgprssuc;   /**< Tx Probe Response Success (ACK was received) */
    uint32 prs_timeout; /**< number of probe requests that were dropped from the
                         * PRQ fifo because a probe response could not be sent
                         * out within the time limit defined in M_PRS_MAXTIME
                         */
    uint32 rxnack;      /**< obsolete */
    uint32 frmscons;    /**< obsolete */
    uint32 txnack;      /**< obsolete */
    uint32 rxback;      /**< blockack rxcnt */
    uint32 txback;      /**< blockack txcnt */
    uint32 bphy_rxcrsglitch; /**< PHY count of bphy glitches */
    uint32 rxdrop20s;        /**< drop secondary cnt */
    uint32 rxtoolate;        /**< receive too late */
    uint32 bphy_badplcp;     /**< number of bad PLCP reception on BPHY rate */
                             /* All counter variables have to be of uint32. */
} wl_cnt_v_le10_mcst_t;

#define MAX_RX_FIFO 3
#define WL_RXFIFO_CNT_VERSION 1 /* current version of wl_rxfifo_cnt_t */
typedef struct {
    /* Counters for frames received from rx fifos */
    uint16 version;
    uint16 length;                   /* length of entire structure */
    uint32 rxf_data[MAX_RX_FIFO];    /* data frames from rx fifo */
    uint32 rxf_mgmtctl[MAX_RX_FIFO]; /* mgmt/ctl frames from rx fifo */
} wl_rxfifo_cnt_t;

typedef struct {
    uint16 version; /**< see definition of WL_CNT_T_VERSION */
    uint16 length;  /**< length of entire structure */

    /* transmit stat counters */
    uint32 txframe;   /**< tx data frames */
    uint32 txbyte;    /**< tx data bytes */
    uint32 txretrans; /**< tx mac retransmits */
    uint32 txerror;   /**< tx data errors (derived: sum of others) */
    uint32 txctl;     /**< tx management frames */
    uint32 txprshort; /**< tx short preamble frames */
    uint32 txserr;    /**< tx status errors */
    uint32 txnobuf;   /**< tx out of buffers errors */
    uint32 txnoassoc; /**< tx discard because we're not associated */
    uint32 txrunt;    /**< tx runt frames */
    uint32 txchit;    /**< tx header cache hit (fastpath) */
    uint32 txcmiss;   /**< tx header cache miss (slowpath) */

    /* transmit chip error counters */
    uint32 txuflo;   /**< tx fifo underflows */
    uint32 txphyerr; /**< tx phy errors (indicated in tx status) */
    uint32 txphycrs;

    /* receive stat counters */
    uint32 rxframe;     /**< rx data frames */
    uint32 rxbyte;      /**< rx data bytes */
    uint32 rxerror;     /**< rx data errors (derived: sum of others) */
    uint32 rxctl;       /**< rx management frames */
    uint32 rxnobuf;     /**< rx out of buffers errors */
    uint32 rxnondata;   /**< rx non data frames in the data channel errors */
    uint32 rxbadds;     /**< rx bad DS errors */
    uint32 rxbadcm;     /**< rx bad control or management frames */
    uint32 rxfragerr;   /**< rx fragmentation errors */
    uint32 rxrunt;      /**< rx runt frames */
    uint32 rxgiant;     /**< rx giant frames */
    uint32 rxnoscb;     /**< rx no scb error */
    uint32 rxbadproto;  /**< rx invalid frames */
    uint32 rxbadsrcmac; /**< rx frames with Invalid Src Mac */
    uint32 rxbadda;     /**< rx frames tossed for invalid da */
    uint32 rxfilter;    /**< rx frames filtered out */

    /* receive chip error counters */
    uint32 rxoflo;        /**< rx fifo overflow errors */
    uint32 rxuflo[NFIFO]; /**< rx dma descriptor underflow errors */

    uint32 d11cnt_txrts_off;   /**< d11cnt txrts value when reset d11cnt */
    uint32 d11cnt_rxcrc_off;   /**< d11cnt rxcrc value when reset d11cnt */
    uint32 d11cnt_txnocts_off; /**< d11cnt txnocts value when reset d11cnt */

    /* misc counters */
    uint32 dmade; /**< tx/rx dma descriptor errors */
    uint32 dmada; /**< tx/rx dma data errors */
    uint32 dmape; /**< tx/rx dma descriptor protocol errors */
    uint32 reset; /**< reset count */
    uint32 tbtt;  /**< cnts the TBTT int's */
    uint32 txdmawar;
    uint32 pkt_callback_reg_fail; /**< callbacks register failure */

    /* MAC counters: 32-bit version of d11.h's macstat_t */
    uint32 txallfrm;     /**< total number of frames sent, incl. Data, ACK, RTS,
                          * CTS,     Control Management (includes retransmissions)
                          */
    uint32 txrtsfrm;     /**< number of RTS sent out by the MAC */
    uint32 txctsfrm;     /**< number of CTS sent out by the MAC */
    uint32 txackfrm;     /**< number of ACK frames sent out */
    uint32 txdnlfrm;     /**< Not used */
    uint32 txbcnfrm;     /**< beacons transmitted */
    uint32 txfunfl[6];   /**< per-fifo tx underflows */
    uint32 rxtoolate;    /**< receive too late */
    uint32 txfbw;        /**< transmit at fallback bw (dynamic bw) */
    uint32 txtplunfl;    /**< Template underflows (mac was too slow to transmit
                          * ACK/CTS    or BCN)
                          */
    uint32 txphyerror;   /**< Transmit phy error, type of error is reported in
                          * tx-status for   driver enqueued frames
                          */
    uint32 rxfrmtoolong; /**< Received frame longer than legal limit (2346
                            bytes) */
    uint32 rxfrmtooshrt; /**< Received frame did not contain enough bytes for
                            its frame type */
    uint32 rxinvmachdr;  /**< Either the protocol version != 0 or frame type not
                          * data/control/management
                          */
    uint32 rxbadfcs; /**< number of frames for which the CRC check failed in the
                        MAC */
    uint32 rxbadplcp;   /**< parity check of the PLCP header failed */
    uint32 rxcrsglitch; /**< PHY was able to correlate the preamble but not the
                           header */
    uint32 rxstrt;      /**< Number of received frames with a good PLCP
                         * (i.e. passing parity check)
                         */
    uint32 rxdfrmucastmbss; /* Number of received DATA frames with good FCS and
                               matching RA */
    uint32 rxmfrmucastmbss; /* number of received mgmt frames with good FCS and
                               matching RA */
    uint32 rxcfrmucast;  /**< number of received CNTRL frames with good FCS and
                            matching RA */
    uint32 rxrtsucast;   /**< number of unicast RTS addressed to the MAC (good
                            FCS) */
    uint32 rxctsucast;   /**< number of unicast CTS addressed to the MAC (good
                            FCS) */
    uint32 rxackucast;   /**< number of ucast ACKS received (good FCS) */
    uint32 rxdfrmocast;  /**< number of received DATA frames (good FCS and not
                            matching RA) */
    uint32 rxmfrmocast;  /**< number of received MGMT frames (good FCS and not
                            matching RA) */
    uint32 rxcfrmocast;  /**< number of received CNTRL frame (good FCS and not
                            matching RA) */
    uint32 rxrtsocast;   /**< number of received RTS not addressed to the MAC */
    uint32 rxctsocast;   /**< number of received CTS not addressed to the MAC */
    uint32 rxdfrmmcast;  /**< number of RX Data multicast frames received by the
                            MAC */
    uint32 rxmfrmmcast;  /**< number of RX Management multicast frames received
                            by the MAC */
    uint32 rxcfrmmcast;  /**< number of RX Control multicast frames received by
                          * the MAC  (unlikely to see these)
                          */
    uint32 rxbeaconmbss; /**< beacons received from member of BSS */
    uint32 rxdfrmucastobss; /**< number of unicast frames addressed to the MAC
                             * from other BSS (WDS FRAME)
                             */
    uint32 rxbeaconobss;    /**< beacons received from other BSS */
    uint32 rxrsptmout; /**< Number of response timeouts for transmitted frames
                        * expecting a response
                        */
    uint32 bcntxcancl; /**< transmit beacons canceled due to receipt of beacon
                          (IBSS) */
    uint32 rxf0ovfl;   /**< Number of receive fifo 0 overflows */
    uint32 rxf1ovfl;   /**< Number of receive fifo 1 overflows (obsolete) */
    uint32 rxf2ovfl;   /**< Number of receive fifo 2 overflows (obsolete) */
    uint32 txsfovfl; /**< Number of transmit status fifo overflows (obsolete) */
    uint32 pmqovfl;  /**< Number of PMQ overflows */
    uint32 rxcgprqfrm; /**< Number of received Probe requests that made it into
                        * the PRQ fifo
                        */
    uint32 rxcgprsqovfl; /**< Rx Probe Request Que overflow in the AP */
    uint32 txcgprsfail;  /**< Tx Probe Response Fail. AP sent probe response but
                          * did  not get ACK
                          */
    uint32 txcgprssuc;   /**< Tx Probe Response Success (ACK was received) */
    uint32 prs_timeout; /**< Number of probe requests that were dropped from the
                         * PRQ fifo because a probe response could not be sent
                         * out within the time limit defined in M_PRS_MAXTIME
                         */
    uint32 rxnack;      /**< obsolete */
    uint32 frmscons;    /**< obsolete */
    uint32 txnack;      /**< obsolete */
    uint32 rxback;      /**< blockack rxcnt */
    uint32 txback;      /**< blockack txcnt */

    /* 802.11 MIB counters, pp. 614 of 802.11 reaff doc. */
    uint32 txfrag;   /**< dot11TransmittedFragmentCount */
    uint32 txmulti;  /**< dot11MulticastTransmittedFrameCount */
    uint32 txfail;   /**< dot11FailedCount */
    uint32 txretry;  /**< dot11RetryCount */
    uint32 txretrie; /**< dot11MultipleRetryCount */
    uint32 rxdup;    /**< dot11FrameduplicateCount */
    uint32 txrts;    /**< dot11RTSSuccessCount */
    uint32 txnocts;  /**< dot11RTSFailureCount */
    uint32 txnoack;  /**< dot11ACKFailureCount */
    uint32 rxfrag;   /**< dot11ReceivedFragmentCount */
    uint32 rxmulti;  /**< dot11MulticastReceivedFrameCount */
    uint32 rxcrc;    /**< dot11FCSErrorCount */
    uint32 txfrmsnt; /**< dot11TransmittedFrameCount (bogus MIB?) */
    uint32 rxundec;  /**< dot11WEPUndecryptableCount */

    /* WPA2 counters (see rxundec for DecryptFailureCount) */
    uint32 tkipmicfaill; /**< TKIPLocalMICFailures */
    uint32 tkipcntrmsr;  /**< TKIPCounterMeasuresInvoked */
    uint32 tkipreplay;   /**< TKIPReplays */
    uint32 ccmpfmterr;   /**< CCMPFormatErrors */
    uint32 ccmpreplay;   /**< CCMPReplays */
    uint32 ccmpundec;    /**< CCMPDecryptErrors */
    uint32 fourwayfail;  /**< FourWayHandshakeFailures */
    uint32 wepundec;     /**< dot11WEPUndecryptableCount */
    uint32 wepicverr;    /**< dot11WEPICVErrorCount */
    uint32 decsuccess;   /**< DecryptSuccessCount */
    uint32 tkipicverr;   /**< TKIPICVErrorCount */
    uint32 wepexcluded;  /**< dot11WEPExcludedCount */

    uint32 txchanrej;   /**< Tx frames suppressed due to channel rejection */
    uint32 psmwds;      /**< Count PSM watchdogs */
    uint32 phywatchdog; /**< Count Phy watchdogs (triggered by ucode) */

    /* MBSS counters, AP only */
    uint32 prq_entries_handled;    /**< PRQ entries read in */
    uint32 prq_undirected_entries; /**<    which were bcast bss & ssid */
    uint32 prq_bad_entries;     /**<    which could not be translated to info */
    uint32 atim_suppress_count; /**< TX suppressions on ATIM fifo */
    uint32
        bcn_template_not_ready; /**< Template marked in use on send bcn ... */
    uint32 bcn_template_not_ready_done; /**< ...but "DMA done" interrupt rcvd */
    uint32 late_tbtt_dpc;               /**< TBTT DPC did not happen in time */

    /* per-rate receive stat counters */
    uint32 rx1mbps;   /**< packets rx at 1Mbps */
    uint32 rx2mbps;   /**< packets rx at 2Mbps */
    uint32 rx5mbps5;  /**< packets rx at 5.5Mbps */
    uint32 rx6mbps;   /**< packets rx at 6Mbps */
    uint32 rx9mbps;   /**< packets rx at 9Mbps */
    uint32 rx11mbps;  /**< packets rx at 11Mbps */
    uint32 rx12mbps;  /**< packets rx at 12Mbps */
    uint32 rx18mbps;  /**< packets rx at 18Mbps */
    uint32 rx24mbps;  /**< packets rx at 24Mbps */
    uint32 rx36mbps;  /**< packets rx at 36Mbps */
    uint32 rx48mbps;  /**< packets rx at 48Mbps */
    uint32 rx54mbps;  /**< packets rx at 54Mbps */
    uint32 rx108mbps; /**< packets rx at 108mbps */
    uint32 rx162mbps; /**< packets rx at 162mbps */
    uint32 rx216mbps; /**< packets rx at 216 mbps */
    uint32 rx270mbps; /**< packets rx at 270 mbps */
    uint32 rx324mbps; /**< packets rx at 324 mbps */
    uint32 rx378mbps; /**< packets rx at 378 mbps */
    uint32 rx432mbps; /**< packets rx at 432 mbps */
    uint32 rx486mbps; /**< packets rx at 486 mbps */
    uint32 rx540mbps; /**< packets rx at 540 mbps */

    /* pkteng rx frame stats */
    uint32 pktengrxducast; /**< unicast frames rxed by the pkteng code */
    uint32 pktengrxdmcast; /**< multicast frames rxed by the pkteng code */

    uint32 rfdisable;        /**< count of radio disables */
    uint32 bphy_rxcrsglitch; /**< PHY count of bphy glitches */
    uint32 bphy_badplcp;

    uint32 txexptime; /**< Tx frames suppressed due to timer expiration */

    uint32 txmpdu_sgi;  /**< count for sgi transmit */
    uint32 rxmpdu_sgi;  /**< count for sgi received */
    uint32 txmpdu_stbc; /**< count for stbc transmit */
    uint32 rxmpdu_stbc; /**< count for stbc received */

    uint32 rxundec_mcst; /**< dot11WEPUndecryptableCount */

    /* WPA2 counters (see rxundec for DecryptFailureCount) */
    uint32 tkipmicfaill_mcst; /**< TKIPLocalMICFailures */
    uint32 tkipcntrmsr_mcst;  /**< TKIPCounterMeasuresInvoked */
    uint32 tkipreplay_mcst;   /**< TKIPReplays */
    uint32 ccmpfmterr_mcst;   /**< CCMPFormatErrors */
    uint32 ccmpreplay_mcst;   /**< CCMPReplays */
    uint32 ccmpundec_mcst;    /**< CCMPDecryptErrors */
    uint32 fourwayfail_mcst;  /**< FourWayHandshakeFailures */
    uint32 wepundec_mcst;     /**< dot11WEPUndecryptableCount */
    uint32 wepicverr_mcst;    /**< dot11WEPICVErrorCount */
    uint32 decsuccess_mcst;   /**< DecryptSuccessCount */
    uint32 tkipicverr_mcst;   /**< TKIPICVErrorCount */
    uint32 wepexcluded_mcst;  /**< dot11WEPExcludedCount */

    uint32 dma_hang; /**< count for dma hang */
    uint32 reinit;   /**< count for reinit */

    uint32 pstatxucast; /**< count of ucast frames xmitted on all psta assoc */
    uint32 pstatxnoassoc; /**< count of txnoassoc frames xmitted on all psta
                             assoc */
    uint32 pstarxucast; /**< count of ucast frames received on all psta assoc */
    uint32 pstarxbcmc;  /**< count of bcmc frames received on all psta */
    uint32 pstatxbcmc;  /**< count of bcmc frames transmitted on all psta */

    uint32 cso_passthrough; /**< hw cso required but passthrough */
    uint32 cso_normal;      /**< hw cso hdr for normal process */
    uint32 chained;         /**< number of frames chained */
    uint32 chainedsz1;      /**< number of chain size 1 frames */
    uint32 unchained;       /**< number of frames not chained */
    uint32 maxchainsz;      /**< max chain size so far */
    uint32 currchainsz;     /**< current chain size */
    uint32 rxdrop20s;       /**< drop secondary cnt */
    uint32 pciereset;       /**< Secondary Bus Reset issued by driver */
    uint32 cfgrestore;      /**< configspace restore by driver */
    uint32 reinitreason[NREINITREASONCOUNT]; /**< reinitreason counters; 0:
                                                Unknown reason */
    uint32 rxrtry; /**< num of received packets with retry bit on */
    uint32
        txmpdu; /**< macstat cnt only valid in ver 11. number of MPDUs txed.  */
    uint32 rxnodelim; /**< macstat cnt only valid in ver 11.
                       * number of occasions that no valid delimiter is detected
                       * by ampdu parser.
                       */
    uint32 rxmpdu_mu; /**< Number of MU MPDUs received */

    /* detailed control/management frames */
    uint32 txbar;        /**< Number of TX BAR */
    uint32 rxbar;        /**< Number of RX BAR */
    uint32 txpspoll;     /**< Number of TX PS-poll */
    uint32 rxpspoll;     /**< Number of RX PS-poll */
    uint32 txnull;       /**< Number of TX NULL_DATA */
    uint32 rxnull;       /**< Number of RX NULL_DATA */
    uint32 txqosnull;    /**< Number of TX NULL_QoSDATA */
    uint32 rxqosnull;    /**< Number of RX NULL_QoSDATA */
    uint32 txassocreq;   /**< Number of TX ASSOC request */
    uint32 rxassocreq;   /**< Number of RX ASSOC request */
    uint32 txreassocreq; /**< Number of TX REASSOC request */
    uint32 rxreassocreq; /**< Number of RX REASSOC request */
    uint32 txdisassoc;   /**< Number of TX DISASSOC */
    uint32 rxdisassoc;   /**< Number of RX DISASSOC */
    uint32 txassocrsp;   /**< Number of TX ASSOC response */
    uint32 rxassocrsp;   /**< Number of RX ASSOC response */
    uint32 txreassocrsp; /**< Number of TX REASSOC response */
    uint32 rxreassocrsp; /**< Number of RX REASSOC response */
    uint32 txauth;       /**< Number of TX AUTH */
    uint32 rxauth;       /**< Number of RX AUTH */
    uint32 txdeauth;     /**< Number of TX DEAUTH */
    uint32 rxdeauth;     /**< Number of RX DEAUTH */
    uint32 txprobereq;   /**< Number of TX probe request */
    uint32 rxprobereq;   /**< Number of RX probe request */
    uint32 txprobersp;   /**< Number of TX probe response */
    uint32 rxprobersp;   /**< Number of RX probe response */
    uint32 txaction;     /**< Number of TX action frame */
    uint32 rxaction;     /**< Number of RX action frame */
    uint32 ampdu_wds;    /**< Number of AMPDU watchdogs */
    uint32 txlost;       /**< Number of lost packets reported in txs */
    uint32 txdatamcast;  /**< Number of TX multicast data packets */
    uint32 txdatabcast;  /**< Number of TX broadcast data packets */
    uint32 txbcast;      /* Broadcast TransmittedFrameCount */
    uint32 txdropped;    /* tx dropped pkts */
    uint32 rxbcast;      /* BroadcastReceivedFrameCount */
    uint32 rxdropped;    /* rx dropped pkts (derived: sum of others) */

    /* This structure is deprecated and used only for ver <= 11.
     * All counter variables have to be of uint32.
     * Please refer to the following twiki before editing.
     * http://hwnbu-twiki.sj.broadcom.com/bin/view/
     * Mwgroup/WlCounters#wlc_layer_counters_non_xTLV
     */
} wl_cnt_ver_11_t;

typedef struct {
    uint16 version; /* see definition of WL_CNT_T_VERSION */
    uint16 length;  /* length of entire structure */

    /* transmit stat counters */
    uint32 txframe;   /* tx data frames */
    uint32 txbyte;    /* tx data bytes */
    uint32 txretrans; /* tx mac retransmits */
    uint32 txerror;   /* tx data errors (derived: sum of others) */
    uint32 txctl;     /* tx management frames */
    uint32 txprshort; /* tx short preamble frames */
    uint32 txserr;    /* tx status errors */
    uint32 txnobuf;   /* tx out of buffers errors */
    uint32 txnoassoc; /* tx discard because we're not associated */
    uint32 txrunt;    /* tx runt frames */
    uint32 txchit;    /* tx header cache hit (fastpath) */
    uint32 txcmiss;   /* tx header cache miss (slowpath) */

    /* transmit chip error counters */
    uint32 txuflo;   /* tx fifo underflows */
    uint32 txphyerr; /* tx phy errors (indicated in tx status) */
    uint32 txphycrs;

    /* receive stat counters */
    uint32 rxframe;     /* rx data frames */
    uint32 rxbyte;      /* rx data bytes */
    uint32 rxerror;     /* rx data errors (derived: sum of others) */
    uint32 rxctl;       /* rx management frames */
    uint32 rxnobuf;     /* rx out of buffers errors */
    uint32 rxnondata;   /* rx non data frames in the data channel errors */
    uint32 rxbadds;     /* rx bad DS errors */
    uint32 rxbadcm;     /* rx bad control or management frames */
    uint32 rxfragerr;   /* rx fragmentation errors */
    uint32 rxrunt;      /* rx runt frames */
    uint32 rxgiant;     /* rx giant frames */
    uint32 rxnoscb;     /* rx no scb error */
    uint32 rxbadproto;  /* rx invalid frames */
    uint32 rxbadsrcmac; /* rx frames with Invalid Src Mac */
    uint32 rxbadda;     /* rx frames tossed for invalid da */
    uint32 rxfilter;    /* rx frames filtered out */

    /* receive chip error counters */
    uint32 rxoflo;        /* rx fifo overflow errors */
    uint32 rxuflo[NFIFO]; /* rx dma descriptor underflow errors */

    uint32 d11cnt_txrts_off;   /* d11cnt txrts value when reset d11cnt */
    uint32 d11cnt_rxcrc_off;   /* d11cnt rxcrc value when reset d11cnt */
    uint32 d11cnt_txnocts_off; /* d11cnt txnocts value when reset d11cnt */

    /* misc counters */
    uint32 dmade; /* tx/rx dma descriptor errors */
    uint32 dmada; /* tx/rx dma data errors */
    uint32 dmape; /* tx/rx dma descriptor protocol errors */
    uint32 reset; /* reset count */
    uint32 tbtt;  /* cnts the TBTT int's */
    uint32 txdmawar;
    uint32 pkt_callback_reg_fail; /* callbacks register failure */

    /* MAC counters: 32-bit version of d11.h's macstat_t */
    uint32 txallfrm; /* total number of frames sent, incl. Data, ACK, RTS, CTS,
                      * Control Management (includes retransmissions)
                      */
    uint32 txrtsfrm; /* number of RTS sent out by the MAC */
    uint32 txctsfrm; /* number of CTS sent out by the MAC */
    uint32 txackfrm; /* number of ACK frames sent out */
    uint32 txdnlfrm; /* Not used */
    uint32 txbcnfrm; /* beacons transmitted */
    uint32 txfunfl[8]; /* per-fifo tx underflows */
    uint32 txtplunfl;  /* Template underflows (mac was too slow to transmit
                        * ACK/CTS  or BCN)
                        */
    uint32 txphyerror; /* Transmit phy error, type of error is reported in
                        * tx-status for driver enqueued frames
                        */
    uint32
        rxfrmtoolong; /* Received frame longer than legal limit (2346 bytes) */
    uint32 rxfrmtooshrt; /* Received frame did not contain enough bytes for its
                            frame type */
    uint32 rxinvmachdr;  /* Either the protocol version != 0 or frame type not
                          * data/control/management
                          */
    uint32 rxbadfcs;  /* number of frames for which the CRC check failed in the
                         MAC */
    uint32 rxbadplcp; /* parity check of the PLCP header failed */
    uint32 rxcrsglitch; /* PHY was able to correlate the preamble but not the
                           header */
    uint32 rxstrt;      /* Number of received frames with a good PLCP
                         * (i.e. passing parity check)
                         */
    uint32 rxdfrmucastmbss; /* Number of received DATA frames with good FCS and
                               matching RA */
    uint32 rxmfrmucastmbss; /* number of received mgmt frames with good FCS and
                               matching RA */
    uint32 rxcfrmucast;     /* number of received CNTRL frames with good FCS and
                               matching RA */
    uint32
        rxrtsucast; /* number of unicast RTS addressed to the MAC (good FCS) */
    uint32
        rxctsucast; /* number of unicast CTS addressed to the MAC (good FCS) */
    uint32 rxackucast;  /* number of ucast ACKS received (good FCS) */
    uint32 rxdfrmocast; /* number of received DATA frames (good FCS and not
                           matching RA) */
    uint32 rxmfrmocast; /* number of received MGMT frames (good FCS and not
                           matching RA) */
    uint32 rxcfrmocast; /* number of received CNTRL frame (good FCS and not
                           matching RA) */
    uint32 rxrtsocast;  /* number of received RTS not addressed to the MAC */
    uint32 rxctsocast;  /* number of received CTS not addressed to the MAC */
    uint32 rxdfrmmcast; /* number of RX Data multicast frames received by the
                           MAC */
    uint32 rxmfrmmcast; /* number of RX Management multicast frames received by
                           the MAC */
    uint32 rxcfrmmcast; /* number of RX Control multicast frames received by the
                         * MAC (unlikely to see these)
                         */
    uint32 rxbeaconmbss;    /* beacons received from member of BSS */
    uint32 rxdfrmucastobss; /* number of unicast frames addressed to the MAC
                             * from other BSS (WDS FRAME)
                             */
    uint32 rxbeaconobss;    /* beacons received from other BSS */
    uint32 rxrsptmout; /* Number of response timeouts for transmitted frames
                        * expecting a response
                        */
    uint32 bcntxcancl; /* transmit beacons canceled due to receipt of beacon
                          (IBSS) */
    uint32 rxf0ovfl;   /* Number of receive fifo 0 overflows */
    uint32 rxf1ovfl;   /* Number of receive fifo 1 overflows (obsolete) */
    uint32 rxf2ovfl;   /* Number of receive fifo 2 overflows (obsolete) */
    uint32 txsfovfl;   /* Number of transmit status fifo overflows (obsolete) */
    uint32 pmqovfl;    /* Number of PMQ overflows */
    uint32 rxcgprqfrm; /* Number of received Probe requests that made it into
                        * the PRQ fifo
                        */
    uint32 rxcgprsqovfl;  /* Rx Probe Request Que overflow in the AP */
    uint32 txcgprsfail;   /* Tx Probe Response Fail. AP sent probe response but
                           * did   not get ACK
                           */
    uint32 txcgprssuc;    /* Tx Probe Response Success (ACK was received) */
    uint32 prs_timeout;   /* Number of probe requests that were dropped from the
                           * PRQ   fifo because a probe response could not be sent
                           * out within   the time limit defined in M_PRS_MAXTIME
                           */
    uint32 rxnack;        /* obsolete */
    uint32 frmscons;      /* obsolete */
    uint32 txnack;        /* obsolete */
    uint32 txglitch_nack; /* obsolete */
    uint32 txburst;       /* obsolete */

    /* 802.11 MIB counters, pp. 614 of 802.11 reaff doc. */
    uint32 txfrag;   /* dot11TransmittedFragmentCount */
    uint32 txmulti;  /* dot11MulticastTransmittedFrameCount */
    uint32 txfail;   /* dot11FailedCount */
    uint32 txretry;  /* dot11RetryCount */
    uint32 txretrie; /* dot11MultipleRetryCount */
    uint32 rxdup;    /* dot11FrameduplicateCount */
    uint32 txrts;    /* dot11RTSSuccessCount */
    uint32 txnocts;  /* dot11RTSFailureCount */
    uint32 txnoack;  /* dot11ACKFailureCount */
    uint32 rxfrag;   /* dot11ReceivedFragmentCount */
    uint32 rxmulti;  /* dot11MulticastReceivedFrameCount */
    uint32 rxcrc;    /* dot11FCSErrorCount */
    uint32 txfrmsnt; /* dot11TransmittedFrameCount (bogus MIB?) */
    uint32 rxundec;  /* dot11WEPUndecryptableCount */

    /* WPA2 counters (see rxundec for DecryptFailureCount) */
    uint32 tkipmicfaill; /* TKIPLocalMICFailures */
    uint32 tkipcntrmsr;  /* TKIPCounterMeasuresInvoked */
    uint32 tkipreplay;   /* TKIPReplays */
    uint32 ccmpfmterr;   /* CCMPFormatErrors */
    uint32 ccmpreplay;   /* CCMPReplays */
    uint32 ccmpundec;    /* CCMPDecryptErrors */
    uint32 fourwayfail;  /* FourWayHandshakeFailures */
    uint32 wepundec;     /* dot11WEPUndecryptableCount */
    uint32 wepicverr;    /* dot11WEPICVErrorCount */
    uint32 decsuccess;   /* DecryptSuccessCount */
    uint32 tkipicverr;   /* TKIPICVErrorCount */
    uint32 wepexcluded;  /* dot11WEPExcludedCount */

    uint32 txchanrej;   /* Tx frames suppressed due to channel rejection */
    uint32 psmwds;      /* Count PSM watchdogs */
    uint32 phywatchdog; /* Count Phy watchdogs (triggered by ucode) */

    /* MBSS counters, AP only */
    uint32 prq_entries_handled;    /* PRQ entries read in */
    uint32 prq_undirected_entries; /*    which were bcast bss & ssid */
    uint32 prq_bad_entries;     /*    which could not be translated to info */
    uint32 atim_suppress_count; /* TX suppressions on ATIM fifo */
    uint32 bcn_template_not_ready; /* Template marked in use on send bcn ... */
    uint32 bcn_template_not_ready_done; /* ...but "DMA done" interrupt rcvd */
    uint32 late_tbtt_dpc;               /* TBTT DPC did not happen in time */

    /* per-rate receive stat counters */
    uint32 rx1mbps;   /* packets rx at 1Mbps */
    uint32 rx2mbps;   /* packets rx at 2Mbps */
    uint32 rx5mbps5;  /* packets rx at 5.5Mbps */
    uint32 rx6mbps;   /* packets rx at 6Mbps */
    uint32 rx9mbps;   /* packets rx at 9Mbps */
    uint32 rx11mbps;  /* packets rx at 11Mbps */
    uint32 rx12mbps;  /* packets rx at 12Mbps */
    uint32 rx18mbps;  /* packets rx at 18Mbps */
    uint32 rx24mbps;  /* packets rx at 24Mbps */
    uint32 rx36mbps;  /* packets rx at 36Mbps */
    uint32 rx48mbps;  /* packets rx at 48Mbps */
    uint32 rx54mbps;  /* packets rx at 54Mbps */
    uint32 rx108mbps; /* packets rx at 108mbps */
    uint32 rx162mbps; /* packets rx at 162mbps */
    uint32 rx216mbps; /* packets rx at 216 mbps */
    uint32 rx270mbps; /* packets rx at 270 mbps */
    uint32 rx324mbps; /* packets rx at 324 mbps */
    uint32 rx378mbps; /* packets rx at 378 mbps */
    uint32 rx432mbps; /* packets rx at 432 mbps */
    uint32 rx486mbps; /* packets rx at 486 mbps */
    uint32 rx540mbps; /* packets rx at 540 mbps */

    /* pkteng rx frame stats */
    uint32 pktengrxducast; /* unicast frames rxed by the pkteng code */
    uint32 pktengrxdmcast; /* multicast frames rxed by the pkteng code */

    uint32 rfdisable;        /* count of radio disables */
    uint32 bphy_rxcrsglitch; /* PHY count of bphy glitches */

    uint32 txexptime; /* Tx frames suppressed due to timer expiration */

    uint32 txmpdu_sgi;  /* count for sgi transmit */
    uint32 rxmpdu_sgi;  /* count for sgi received */
    uint32 txmpdu_stbc; /* count for stbc transmit */
    uint32 rxmpdu_stbc; /* count for stbc received */

    uint32 rxundec_mcst; /* dot11WEPUndecryptableCount */

    /* WPA2 counters (see rxundec for DecryptFailureCount) */
    uint32 tkipmicfaill_mcst; /* TKIPLocalMICFailures */
    uint32 tkipcntrmsr_mcst;  /* TKIPCounterMeasuresInvoked */
    uint32 tkipreplay_mcst;   /* TKIPReplays */
    uint32 ccmpfmterr_mcst;   /* CCMPFormatErrors */
    uint32 ccmpreplay_mcst;   /* CCMPReplays */
    uint32 ccmpundec_mcst;    /* CCMPDecryptErrors */
    uint32 fourwayfail_mcst;  /* FourWayHandshakeFailures */
    uint32 wepundec_mcst;     /* dot11WEPUndecryptableCount */
    uint32 wepicverr_mcst;    /* dot11WEPICVErrorCount */
    uint32 decsuccess_mcst;   /* DecryptSuccessCount */
    uint32 tkipicverr_mcst;   /* TKIPICVErrorCount */
    uint32 wepexcluded_mcst;  /* dot11WEPExcludedCount */

    uint32 dma_hang; /* count for stbc received */
    uint32 rxrtry;   /* number of packets with retry bit set to 1 */
} wl_cnt_ver_7_t;

typedef struct {
    uint16 version; /**< see definition of WL_CNT_T_VERSION */
    uint16 length;  /**< length of entire structure */

    /* transmit stat counters */
    uint32 txframe;   /**< tx data frames */
    uint32 txbyte;    /**< tx data bytes */
    uint32 txretrans; /**< tx mac retransmits */
    uint32 txerror;   /**< tx data errors (derived: sum of others) */
    uint32 txctl;     /**< tx management frames */
    uint32 txprshort; /**< tx short preamble frames */
    uint32 txserr;    /**< tx status errors */
    uint32 txnobuf;   /**< tx out of buffers errors */
    uint32 txnoassoc; /**< tx discard because we're not associated */
    uint32 txrunt;    /**< tx runt frames */
    uint32 txchit;    /**< tx header cache hit (fastpath) */
    uint32 txcmiss;   /**< tx header cache miss (slowpath) */

    /* transmit chip error counters */
    uint32 txuflo;   /**< tx fifo underflows */
    uint32 txphyerr; /**< tx phy errors (indicated in tx status) */
    uint32 txphycrs;

    /* receive stat counters */
    uint32 rxframe;     /**< rx data frames */
    uint32 rxbyte;      /**< rx data bytes */
    uint32 rxerror;     /**< rx data errors (derived: sum of others) */
    uint32 rxctl;       /**< rx management frames */
    uint32 rxnobuf;     /**< rx out of buffers errors */
    uint32 rxnondata;   /**< rx non data frames in the data channel errors */
    uint32 rxbadds;     /**< rx bad DS errors */
    uint32 rxbadcm;     /**< rx bad control or management frames */
    uint32 rxfragerr;   /**< rx fragmentation errors */
    uint32 rxrunt;      /**< rx runt frames */
    uint32 rxgiant;     /**< rx giant frames */
    uint32 rxnoscb;     /**< rx no scb error */
    uint32 rxbadproto;  /**< rx invalid frames */
    uint32 rxbadsrcmac; /**< rx frames with Invalid Src Mac */
    uint32 rxbadda;     /**< rx frames tossed for invalid da */
    uint32 rxfilter;    /**< rx frames filtered out */

    /* receive chip error counters */
    uint32 rxoflo;        /**< rx fifo overflow errors */
    uint32 rxuflo[NFIFO]; /**< rx dma descriptor underflow errors */

    uint32 d11cnt_txrts_off;   /**< d11cnt txrts value when reset d11cnt */
    uint32 d11cnt_rxcrc_off;   /**< d11cnt rxcrc value when reset d11cnt */
    uint32 d11cnt_txnocts_off; /**< d11cnt txnocts value when reset d11cnt */

    /* misc counters */
    uint32 dmade; /**< tx/rx dma descriptor errors */
    uint32 dmada; /**< tx/rx dma data errors */
    uint32 dmape; /**< tx/rx dma descriptor protocol errors */
    uint32 reset; /**< reset count */
    uint32 tbtt;  /**< cnts the TBTT int's */
    uint32 txdmawar;
    uint32 pkt_callback_reg_fail; /**< callbacks register failure */

    /* MAC counters: 32-bit version of d11.h's macstat_t */
    uint32 txallfrm;     /**< total number of frames sent, incl. Data, ACK, RTS,
                          * CTS,     Control Management (includes retransmissions)
                          */
    uint32 txrtsfrm;     /**< number of RTS sent out by the MAC */
    uint32 txctsfrm;     /**< number of CTS sent out by the MAC */
    uint32 txackfrm;     /**< number of ACK frames sent out */
    uint32 txdnlfrm;     /**< Not used */
    uint32 txbcnfrm;     /**< beacons transmitted */
    uint32 txfunfl[6];   /**< per-fifo tx underflows */
    uint32 rxtoolate;    /**< receive too late */
    uint32 txfbw;        /**< transmit at fallback bw (dynamic bw) */
    uint32 txtplunfl;    /**< Template underflows (mac was too slow to transmit
                          * ACK/CTS    or BCN)
                          */
    uint32 txphyerror;   /**< Transmit phy error, type of error is reported in
                          * tx-status for   driver enqueued frames
                          */
    uint32 rxfrmtoolong; /**< Received frame longer than legal limit (2346
                            bytes) */
    uint32 rxfrmtooshrt; /**< Received frame did not contain enough bytes for
                            its frame type */
    uint32 rxinvmachdr;  /**< Either the protocol version != 0 or frame type not
                          * data/control/management
                          */
    uint32 rxbadfcs; /**< number of frames for which the CRC check failed in the
                        MAC */
    uint32 rxbadplcp;   /**< parity check of the PLCP header failed */
    uint32 rxcrsglitch; /**< PHY was able to correlate the preamble but not the
                           header */
    uint32 rxstrt;      /**< Number of received frames with a good PLCP
                         * (i.e. passing parity check)
                         */
    uint32 rxdfrmucastmbss; /**< # of received DATA frames with good FCS and
                               matching RA */
    uint32 rxmfrmucastmbss; /**< # of received mgmt frames with good FCS and
                               matching RA */
    uint32 rxcfrmucast;     /**< # of received CNTRL frames with good FCS and
                               matching RA */
    uint32 rxrtsucast;   /**< number of unicast RTS addressed to the MAC (good
                            FCS) */
    uint32 rxctsucast;   /**< number of unicast CTS addressed to the MAC (good
                            FCS) */
    uint32 rxackucast;   /**< number of ucast ACKS received (good FCS) */
    uint32 rxdfrmocast;  /**< # of received DATA frames (good FCS and not
                            matching RA) */
    uint32 rxmfrmocast;  /**< # of received MGMT frames (good FCS and not
                            matching RA) */
    uint32 rxcfrmocast;  /**< # of received CNTRL frame (good FCS and not
                            matching RA) */
    uint32 rxrtsocast;   /**< number of received RTS not addressed to the MAC */
    uint32 rxctsocast;   /**< number of received CTS not addressed to the MAC */
    uint32 rxdfrmmcast;  /**< number of RX Data multicast frames received by the
                            MAC */
    uint32 rxmfrmmcast;  /**< number of RX Management multicast frames received
                            by the MAC */
    uint32 rxcfrmmcast;  /**< number of RX Control multicast frames received by
                          * the MAC  (unlikely to see these)
                          */
    uint32 rxbeaconmbss; /**< beacons received from member of BSS */
    uint32 rxdfrmucastobss; /**< number of unicast frames addressed to the MAC
                             * from other BSS (WDS FRAME)
                             */
    uint32 rxbeaconobss;    /**< beacons received from other BSS */
    uint32 rxrsptmout; /**< Number of response timeouts for transmitted frames
                        * expecting a response
                        */
    uint32 bcntxcancl; /**< transmit beacons canceled due to receipt of beacon
                          (IBSS) */
    uint32 rxf0ovfl;   /**< Number of receive fifo 0 overflows */
    uint32 rxf1ovfl;   /**< Number of receive fifo 1 overflows (obsolete) */
    uint32 rxf2ovfl;   /**< Number of receive fifo 2 overflows (obsolete) */
    uint32 txsfovfl; /**< Number of transmit status fifo overflows (obsolete) */
    uint32 pmqovfl;  /**< Number of PMQ overflows */
    uint32 rxcgprqfrm; /**< Number of received Probe requests that made it into
                        * the PRQ fifo
                        */
    uint32 rxcgprsqovfl; /**< Rx Probe Request Que overflow in the AP */
    uint32 txcgprsfail;  /**< Tx Probe Response Fail. AP sent probe response but
                          * did  not get ACK
                          */
    uint32 txcgprssuc;   /**< Tx Probe Response Success (ACK was received) */
    uint32 prs_timeout; /**< Number of probe requests that were dropped from the
                         * PRQ fifo because a probe response could not be sent
                         * out within the time limit defined in M_PRS_MAXTIME
                         */
    uint32 rxnack;      /**< Number of NACKS received (Afterburner) */
    uint32 frmscons;    /**< Number of frames completed without transmission
                         * because of an    Afterburner re-queue
                         */
    uint32 txnack;      /**< obsolete */
    uint32 rxback;      /**< blockack rxcnt */
    uint32 txback;      /**< blockack txcnt */

    /* 802.11 MIB counters, pp. 614 of 802.11 reaff doc. */
    uint32 txfrag;   /**< dot11TransmittedFragmentCount */
    uint32 txmulti;  /**< dot11MulticastTransmittedFrameCount */
    uint32 txfail;   /**< dot11FailedCount */
    uint32 txretry;  /**< dot11RetryCount */
    uint32 txretrie; /**< dot11MultipleRetryCount */
    uint32 rxdup;    /**< dot11FrameduplicateCount */
    uint32 txrts;    /**< dot11RTSSuccessCount */
    uint32 txnocts;  /**< dot11RTSFailureCount */
    uint32 txnoack;  /**< dot11ACKFailureCount */
    uint32 rxfrag;   /**< dot11ReceivedFragmentCount */
    uint32 rxmulti;  /**< dot11MulticastReceivedFrameCount */
    uint32 rxcrc;    /**< dot11FCSErrorCount */
    uint32 txfrmsnt; /**< dot11TransmittedFrameCount (bogus MIB?) */
    uint32 rxundec;  /**< dot11WEPUndecryptableCount */

    /* WPA2 counters (see rxundec for DecryptFailureCount) */
    uint32 tkipmicfaill; /**< TKIPLocalMICFailures */
    uint32 tkipcntrmsr;  /**< TKIPCounterMeasuresInvoked */
    uint32 tkipreplay;   /**< TKIPReplays */
    uint32 ccmpfmterr;   /**< CCMPFormatErrors */
    uint32 ccmpreplay;   /**< CCMPReplays */
    uint32 ccmpundec;    /**< CCMPDecryptErrors */
    uint32 fourwayfail;  /**< FourWayHandshakeFailures */
    uint32 wepundec;     /**< dot11WEPUndecryptableCount */
    uint32 wepicverr;    /**< dot11WEPICVErrorCount */
    uint32 decsuccess;   /**< DecryptSuccessCount */
    uint32 tkipicverr;   /**< TKIPICVErrorCount */
    uint32 wepexcluded;  /**< dot11WEPExcludedCount */

    uint32 rxundec_mcst; /**< dot11WEPUndecryptableCount */

    /* WPA2 counters (see rxundec for DecryptFailureCount) */
    uint32 tkipmicfaill_mcst; /**< TKIPLocalMICFailures */
    uint32 tkipcntrmsr_mcst;  /**< TKIPCounterMeasuresInvoked */
    uint32 tkipreplay_mcst;   /**< TKIPReplays */
    uint32 ccmpfmterr_mcst;   /**< CCMPFormatErrors */
    uint32 ccmpreplay_mcst;   /**< CCMPReplays */
    uint32 ccmpundec_mcst;    /**< CCMPDecryptErrors */
    uint32 fourwayfail_mcst;  /**< FourWayHandshakeFailures */
    uint32 wepundec_mcst;     /**< dot11WEPUndecryptableCount */
    uint32 wepicverr_mcst;    /**< dot11WEPICVErrorCount */
    uint32 decsuccess_mcst;   /**< DecryptSuccessCount */
    uint32 tkipicverr_mcst;   /**< TKIPICVErrorCount */
    uint32 wepexcluded_mcst;  /**< dot11WEPExcludedCount */

    uint32 txchanrej;   /**< Tx frames suppressed due to channel rejection */
    uint32 txexptime;   /**< Tx frames suppressed due to timer expiration */
    uint32 psmwds;      /**< Count PSM watchdogs */
    uint32 phywatchdog; /**< Count Phy watchdogs (triggered by ucode) */

    /* MBSS counters, AP only */
    uint32 prq_entries_handled;    /**< PRQ entries read in */
    uint32 prq_undirected_entries; /**<    which were bcast bss & ssid */
    uint32 prq_bad_entries;     /**<    which could not be translated to info */
    uint32 atim_suppress_count; /**< TX suppressions on ATIM fifo */
    uint32
        bcn_template_not_ready; /**< Template marked in use on send bcn ... */
    uint32 bcn_template_not_ready_done; /**< ...but "DMA done" interrupt rcvd */
    uint32 late_tbtt_dpc;               /**< TBTT DPC did not happen in time */

    /* per-rate receive stat counters */
    uint32 rx1mbps;   /**< packets rx at 1Mbps */
    uint32 rx2mbps;   /**< packets rx at 2Mbps */
    uint32 rx5mbps5;  /**< packets rx at 5.5Mbps */
    uint32 rx6mbps;   /**< packets rx at 6Mbps */
    uint32 rx9mbps;   /**< packets rx at 9Mbps */
    uint32 rx11mbps;  /**< packets rx at 11Mbps */
    uint32 rx12mbps;  /**< packets rx at 12Mbps */
    uint32 rx18mbps;  /**< packets rx at 18Mbps */
    uint32 rx24mbps;  /**< packets rx at 24Mbps */
    uint32 rx36mbps;  /**< packets rx at 36Mbps */
    uint32 rx48mbps;  /**< packets rx at 48Mbps */
    uint32 rx54mbps;  /**< packets rx at 54Mbps */
    uint32 rx108mbps; /**< packets rx at 108mbps */
    uint32 rx162mbps; /**< packets rx at 162mbps */
    uint32 rx216mbps; /**< packets rx at 216 mbps */
    uint32 rx270mbps; /**< packets rx at 270 mbps */
    uint32 rx324mbps; /**< packets rx at 324 mbps */
    uint32 rx378mbps; /**< packets rx at 378 mbps */
    uint32 rx432mbps; /**< packets rx at 432 mbps */
    uint32 rx486mbps; /**< packets rx at 486 mbps */
    uint32 rx540mbps; /**< packets rx at 540 mbps */

    /* pkteng rx frame stats */
    uint32 pktengrxducast; /**< unicast frames rxed by the pkteng code */
    uint32 pktengrxdmcast; /**< multicast frames rxed by the pkteng code */

    uint32 rfdisable;        /**< count of radio disables */
    uint32 bphy_rxcrsglitch; /**< PHY count of bphy glitches */
    uint32 bphy_badplcp;

    uint32 txmpdu_sgi;  /**< count for sgi transmit */
    uint32 rxmpdu_sgi;  /**< count for sgi received */
    uint32 txmpdu_stbc; /**< count for stbc transmit */
    uint32 rxmpdu_stbc; /**< count for stbc received */

    uint32 rxdrop20s; /**< drop secondary cnt */
                      /* All counter variables have to be of uint32. */
} wl_cnt_ver_6_t;

#define WL_DELTA_STATS_T_VERSION                                               \
    2 /**< current version of wl_delta_stats_t struct */

typedef struct {
    uint16 version; /**< see definition of WL_DELTA_STATS_T_VERSION */
    uint16 length;  /**< length of entire structure */

    /* transmit stat counters */
    uint32 txframe;   /**< tx data frames */
    uint32 txbyte;    /**< tx data bytes */
    uint32 txretrans; /**< tx mac retransmits */
    uint32 txfail;    /**< tx failures */

    /* receive stat counters */
    uint32 rxframe; /**< rx data frames */
    uint32 rxbyte;  /**< rx data bytes */

    /* per-rate receive stat counters */
    uint32 rx1mbps;   /**< packets rx at 1Mbps */
    uint32 rx2mbps;   /**< packets rx at 2Mbps */
    uint32 rx5mbps5;  /**< packets rx at 5.5Mbps */
    uint32 rx6mbps;   /**< packets rx at 6Mbps */
    uint32 rx9mbps;   /**< packets rx at 9Mbps */
    uint32 rx11mbps;  /**< packets rx at 11Mbps */
    uint32 rx12mbps;  /**< packets rx at 12Mbps */
    uint32 rx18mbps;  /**< packets rx at 18Mbps */
    uint32 rx24mbps;  /**< packets rx at 24Mbps */
    uint32 rx36mbps;  /**< packets rx at 36Mbps */
    uint32 rx48mbps;  /**< packets rx at 48Mbps */
    uint32 rx54mbps;  /**< packets rx at 54Mbps */
    uint32 rx108mbps; /**< packets rx at 108mbps */
    uint32 rx162mbps; /**< packets rx at 162mbps */
    uint32 rx216mbps; /**< packets rx at 216 mbps */
    uint32 rx270mbps; /**< packets rx at 270 mbps */
    uint32 rx324mbps; /**< packets rx at 324 mbps */
    uint32 rx378mbps; /**< packets rx at 378 mbps */
    uint32 rx432mbps; /**< packets rx at 432 mbps */
    uint32 rx486mbps; /**< packets rx at 486 mbps */
    uint32 rx540mbps; /**< packets rx at 540 mbps */

    /* phy stats */
    uint32 rxbadplcp;
    uint32 rxcrsglitch;
    uint32 bphy_rxcrsglitch;
    uint32 bphy_badplcp;

    uint32 slice_index; /**< Slice for which stats are reported */
} wl_delta_stats_t;

/* Partial statistics counter report */
#define WL_CNT_CTL_MGT_FRAMES 0

typedef struct {
    uint16 type;
    uint16 len;

    /* detailed control/management frames */
    uint32 txnull;
    uint32 rxnull;
    uint32 txqosnull;
    uint32 rxqosnull;
    uint32 txassocreq;
    uint32 rxassocreq;
    uint32 txreassocreq;
    uint32 rxreassocreq;
    uint32 txdisassoc;
    uint32 rxdisassoc;
    uint32 txassocrsp;
    uint32 rxassocrsp;
    uint32 txreassocrsp;
    uint32 rxreassocrsp;
    uint32 txauth;
    uint32 rxauth;
    uint32 txdeauth;
    uint32 rxdeauth;
    uint32 txprobereq;
    uint32 rxprobereq;
    uint32 txprobersp;
    uint32 rxprobersp;
    uint32 txaction;
    uint32 rxaction;
    uint32 txrts;
    uint32 rxrts;
    uint32 txcts;
    uint32 rxcts;
    uint32 txack;
    uint32 rxack;
    uint32 txbar;
    uint32 rxbar;
    uint32 txback;
    uint32 rxback;
    uint32 txpspoll;
    uint32 rxpspoll;
} wl_ctl_mgt_cnt_t;

typedef struct {
    uint32 packets;
    uint32 bytes;
} wl_traffic_stats_t;

typedef struct {
    uint16 version; /**< see definition of WL_WME_CNT_VERSION */
    uint16 length;  /**< length of entire structure */

    wl_traffic_stats_t tx[AC_COUNT]; /**< Packets transmitted */
    wl_traffic_stats_t
        tx_failed[AC_COUNT]; /**< Packets dropped or failed to transmit */
    wl_traffic_stats_t rx[AC_COUNT];        /**< Packets received */
    wl_traffic_stats_t rx_failed[AC_COUNT]; /**< Packets failed to receive */

    wl_traffic_stats_t forward[AC_COUNT]; /**< Packets forwarded by AP */

    wl_traffic_stats_t
        tx_expired[AC_COUNT]; /**< packets dropped due to lifetime expiry */
} wl_wme_cnt_t;

struct wl_msglevel2 {
    uint32 low;
    uint32 high;
};

/* A versioned structure for setting and retrieving debug message levels. */
#define WL_MSGLEVEL_STRUCT_VERSION_1 1

typedef struct wl_msglevel_v1 {
    uint16 version;
    uint16 length;
    uint32 msglevel1;
    uint32 msglevel2;
    uint32 msglevel3;
    /* add another uint32 when full */
} wl_msglevel_v1_t;

#define WL_ICMP_IPV6_CFG_VERSION 1
#define WL_ICMP_IPV6_CLEAR_ALL (1 << 0)

typedef struct wl_icmp_ipv6_cfg {
    uint16 version;
    uint16 length;
    uint16 fixed_length;
    uint16 flags;
    uint32 num_ipv6;
    /* num_ipv6 to follow */
    struct ipv6_addr host_ipv6[];
} wl_icmp_ipv6_cfg_t;

#define WL_ICMP_CFG_IPV6_FIXED_LEN OFFSETOF(wl_icmp_ipv6_cfg_t, host_ipv6)
#define WL_ICMP_CFG_IPV6_LEN(count)                                            \
    (WL_ICMP_CFG_IPV6_FIXED_LEN + ((count) * sizeof(struct ipv6_addr)))

typedef struct wl_mkeep_alive_pkt {
    uint16 version;     /* Version for mkeep_alive */
    uint16 length;      /* length of fixed parameters in the structure */
    uint32 period_msec; /* high bit on means immediate send */
    uint16 len_bytes;
    uint8 keep_alive_id; /* 0 - 3 for N = 4 */
    uint8 data[1];
} wl_mkeep_alive_pkt_t;

#define WL_MKEEP_ALIVE_VERSION 1
#define WL_MKEEP_ALIVE_FIXED_LEN OFFSETOF(wl_mkeep_alive_pkt_t, data)
/* 1/2 second precision since idle time is a seconds counter anyway */
#define WL_MKEEP_ALIVE_PRECISION 500
#define WL_MKEEP_ALIVE_PERIOD_MASK 0x7FFFFFFF
#define WL_MKEEP_ALIVE_IMMEDIATE 0x80000000

/** TCP Keep-Alive conn struct */
typedef struct wl_mtcpkeep_alive_conn_pkt {
    struct ether_addr saddr;  /**< src mac address */
    struct ether_addr daddr;  /**< dst mac address */
    struct ipv4_addr sipaddr; /**< source IP addr */
    struct ipv4_addr dipaddr; /**< dest IP addr */
    uint16 sport;             /**< src port */
    uint16 dport;             /**< dest port */
    uint32 seq;               /**< seq number */
    uint32 ack;               /**< ACK number */
    uint16 tcpwin;            /**< TCP window */
    uint16 PAD;
} wl_mtcpkeep_alive_conn_pkt_t;

/** TCP Keep-Alive interval struct */
typedef struct wl_mtcpkeep_alive_timers_pkt {
    uint16 interval;       /**< interval timer */
    uint16 retry_interval; /**< retry_interval timer */
    uint16 retry_count;    /**< retry_count */
} wl_mtcpkeep_alive_timers_pkt_t;

typedef struct wake_info {
    uint32 wake_reason;
    uint32 wake_info_len; /**< size of packet */
    uint8 packet[];
} wake_info_t;

typedef struct wake_pkt {
    uint32 wake_pkt_len; /**< size of packet */
    uint8 packet[];
} wake_pkt_t;

#define WL_MTCPKEEP_ALIVE_VERSION 1

/* #ifdef WLBA */

#define WLC_BA_CNT_VERSION 1 /**< current version of wlc_ba_cnt_t */

/** block ack related stats */
typedef struct wlc_ba_cnt {
    uint16 version; /**< WLC_BA_CNT_VERSION */
    uint16 length;  /**< length of entire structure */

    /* transmit stat counters */
    uint32 txpdu;       /**< pdus sent */
    uint32 txsdu;       /**< sdus sent */
    uint32 txfc;        /**< tx side flow controlled packets */
    uint32 txfci;       /**< tx side flow control initiated */
    uint32 txretrans;   /**< retransmitted pdus */
    uint32 txbatimer;   /**< ba resend due to timer */
    uint32 txdrop;      /**< dropped packets */
    uint32 txaddbareq;  /**< addba req sent */
    uint32 txaddbaresp; /**< addba resp sent */
    uint32 txdelba;     /**< delba sent */
    uint32 txba;        /**< ba sent */
    uint32 txbar;       /**< bar sent */
    uint32 txpad[4];    /**< future */

    /* receive side counters */
    uint32 rxpdu;       /**< pdus recd */
    uint32 rxqed;       /**< pdus buffered before sending up */
    uint32 rxdup;       /**< duplicate pdus */
    uint32 rxnobuf;     /**< pdus discarded due to no buf */
    uint32 rxaddbareq;  /**< addba req recd */
    uint32 rxaddbaresp; /**< addba resp recd */
    uint32 rxdelba;     /**< delba recd */
    uint32 rxba;        /**< ba recd */
    uint32 rxbar;       /**< bar recd */
    uint32 rxinvba;     /**< invalid ba recd */
    uint32 rxbaholes;   /**< ba recd with holes */
    uint32 rxunexp;     /**< unexpected packets */
    uint32 rxpad[4];    /**< future */
} wlc_ba_cnt_t;
/* #endif  WLBA */

/** structure for per-tid ampdu control */
struct ampdu_tid_control {
    uint8 tid;    /* tid */
    uint8 enable; /* enable/disable */
};

/** struct for ampdu tx/rx aggregation control */
struct ampdu_aggr {
    int8 aggr_override; /**< aggr overrided by dongle. Not to be set by host. */
    uint16 conf_TID_bmap; /**< bitmap of TIDs to configure */
    uint16 enab_TID_bmap; /**< enable/disable per TID */
};

/** structure for identifying ea/tid for sending addba/delba */
struct ampdu_ea_tid {
    struct ether_addr ea; /**< Station address */
    uint8 tid;            /**< tid */
    uint8 initiator;      /**< 0 is recipient, 1 is originator */
};

/** structure for identifying retry/tid for retry_limit_tid/rr_retry_limit_tid
 */
struct ampdu_retry_tid {
    uint8 tid;   /**< tid */
    uint8 retry; /**< retry value */
};

#define BDD_FNAME_LEN 32 /**< Max length of friendly name */
typedef struct bdd_fname {
    uint8 len;                 /**< length of friendly name */
    uchar name[BDD_FNAME_LEN]; /**< friendly name */
} bdd_fname_t;

/* structure for addts arguments */
/** For ioctls that take a list of TSPEC */
struct tslist {
    int32 count;                /**< number of tspecs */
    struct tsinfo_arg tsinfo[]; /**< variable length array of tsinfo */
};

/* WLTDLS */
/**structure for tdls iovars */
typedef struct tdls_iovar {
    struct ether_addr ea; /**< Station address */
    uint8 mode;           /**< mode: depends on iovar */
    uint8 PAD;
    chanspec_t chanspec;
    uint8 PAD[6];
} tdls_iovar_t;

#define TDLS_WFD_IE_SIZE 512
/**structure for tdls wfd ie */
typedef struct tdls_wfd_ie_iovar {
    struct ether_addr ea; /**< Station address */
    uint8 mode;
    uint8 PAD;
    uint16 length;
    uint8 data[TDLS_WFD_IE_SIZE];
} tdls_wfd_ie_iovar_t;
/* #endif WLTDLS */

/** structure for addts/delts arguments */
typedef struct tspec_arg {
    uint16 version; /**< see definition of TSPEC_ARG_VERSION */
    uint16 length;  /**< length of entire structure */
    uint32 flag;    /**< bit field */
    /* TSPEC Arguments */
    struct tsinfo_arg tsinfo; /**< TS Info bit field */
    uint8 PAD;
    uint16 nom_msdu_size;       /**< (Nominal or fixed) MSDU Size (bytes) */
    uint16 max_msdu_size;       /**< Maximum MSDU Size (bytes) */
    uint32 min_srv_interval;    /**< Minimum Service Interval (us) */
    uint32 max_srv_interval;    /**< Maximum Service Interval (us) */
    uint32 inactivity_interval; /**< Inactivity Interval (us) */
    uint32 suspension_interval; /**< Suspension Interval (us) */
    uint32 srv_start_time;      /**< Service Start Time (us) */
    uint32 min_data_rate;       /**< Minimum Data Rate (bps) */
    uint32 mean_data_rate;      /**< Mean Data Rate (bps) */
    uint32 peak_data_rate;      /**< Peak Data Rate (bps) */
    uint32 max_burst_size;      /**< Maximum Burst Size (bytes) */
    uint32 delay_bound;         /**< Delay Bound (us) */
    uint32 min_phy_rate;        /**< Minimum PHY Rate (bps) */
    uint16 surplus_bw;  /**< Surplus Bandwidth Allowance (range 1.0 to 8.0) */
    uint16 medium_time; /**< Medium Time (32 us/s periods) */
    uint8 dialog_token; /**< dialog token */
    uint8 PAD[3];
} tspec_arg_t;

/** tspec arg for desired station */
typedef struct tspec_per_sta_arg {
    struct ether_addr ea;
    uint8 PAD[2];
    struct tspec_arg ts;
} tspec_per_sta_arg_t;

/** structure for max bandwidth for each access category */
typedef struct wme_max_bandwidth {
    uint32 ac[AC_COUNT]; /**< max bandwidth for each access category */
} wme_max_bandwidth_t;

#define WL_WME_MBW_PARAMS_IO_BYTES (sizeof(wme_max_bandwidth_t))

/* current version of wl_tspec_arg_t struct */
#define TSPEC_ARG_VERSION 2 /**< current version of wl_tspec_arg_t struct */
#define TSPEC_ARG_LENGTH 55 /**< argument length from tsinfo to medium_time */
#define TSPEC_DEFAULT_DIALOG_TOKEN 42   /**< default dialog token */
#define TSPEC_DEFAULT_SBW_FACTOR 0x3000 /**< default surplus bw */

#define WL_WOWL_KEEPALIVE_MAX_PACKET_SIZE 80
#define WLC_WOWL_MAX_KEEPALIVE 2

/** Packet lifetime configuration per ac */
typedef struct wl_lifetime {
    uint32 ac;       /**< access class */
    uint32 lifetime; /**< Packet lifetime value in ms */
} wl_lifetime_t;

/** Management time configuration */
typedef struct wl_lifetime_mg {
    uint32 mgmt_bitmap; /**< Mgmt subtype */
    uint32 lifetime;    /**< Packet lifetime value in us */
} wl_lifetime_mg_t;

/* MAC Sample Capture related */
#define WL_MACCAPTR_DEFSTART_PTR 0xA00
#define WL_MACCAPTR_DEFSTOP_PTR 0xA3F
#define WL_MACCAPTR_DEFSZ 0x3F

#define WL_MACCAPTR_DEF_MASK 0xFFFFFFFF

typedef enum {
    WL_MACCAPT_TRIG = 0,
    WL_MACCAPT_STORE = 1,
    WL_MACCAPT_TRANS = 2,
    WL_MACCAPT_MATCH = 3
} maccaptr_optn;

typedef enum {
    WL_MACCAPT_STRT = 1,
    WL_MACCAPT_STOP = 2,
    WL_MACCAPT_RST = 3
} maccaptr_cmd_t;

/* MAC Sample Capture Set-up Paramters */
typedef struct wl_maccapture_params {
    uint8 gpio_sel;
    uint8 la_mode; /* TRUE: GPIO Out Enabled */
    uint8 PAD[2];
    uint32 start_ptr; /* Start address to store */
    uint32 stop_ptr;  /* Stop address to store */
    uint8 optn_bmp;   /* Options */
    uint8 PAD[3];
    /* Don't change the order after this nor
     * add anything in betw. Code uses offsets to populate
     * registers
     */
    uint32 tr_mask;     /* Trigger Mask */
    uint32 tr_val;      /* Trigger Value */
    uint32 s_mask;      /* Store Mode Mask */
    uint32 x_mask;      /* Trans. Mode Mask */
    uint32 m_mask;      /* Match Mode Mask */
    uint32 m_val;       /* Match Value */
    maccaptr_cmd_t cmd; /* Start / Stop */
} wl_maccapture_params_t;

/** Channel Switch Announcement param */
typedef struct wl_chan_switch {
    uint8 mode;        /**< value 0 or 1 */
    uint8 count;       /**< count # of beacons before switching */
    chanspec_t chspec; /**< chanspec */
    uint8 reg;         /**< regulatory class */
    uint8 frame_type;  /**< csa frame type, unicast or broadcast */
} wl_chan_switch_t;

enum { PFN_LIST_ORDER, PFN_RSSI };

enum { DISABLE, ENABLE };

enum { OFF_ADAPT, SMART_ADAPT, STRICT_ADAPT, SLOW_ADAPT };

#define SORT_CRITERIA_BIT 0
#define AUTO_NET_SWITCH_BIT 1
#define ENABLE_BKGRD_SCAN_BIT 2
#define IMMEDIATE_SCAN_BIT 3
#define AUTO_CONNECT_BIT 4
#define ENABLE_BD_SCAN_BIT 5
#define ENABLE_ADAPTSCAN_BIT 6
#define IMMEDIATE_EVENT_BIT 8
#define SUPPRESS_SSID_BIT 9
#define ENABLE_NET_OFFLOAD_BIT 10
/** report found/lost events for SSID and BSSID networks seperately */
#define REPORT_SEPERATELY_BIT 11

#define SORT_CRITERIA_MASK 0x0001
#define AUTO_NET_SWITCH_MASK 0x0002
#define ENABLE_BKGRD_SCAN_MASK 0x0004
#define IMMEDIATE_SCAN_MASK 0x0008
#define AUTO_CONNECT_MASK 0x0010

#define ENABLE_BD_SCAN_MASK 0x0020
#define ENABLE_ADAPTSCAN_MASK 0x00c0
#define IMMEDIATE_EVENT_MASK 0x0100
#define SUPPRESS_SSID_MASK 0x0200
#define ENABLE_NET_OFFLOAD_MASK 0x0400
/** report found/lost events for SSID and BSSID networks seperately */
#define REPORT_SEPERATELY_MASK 0x0800

#define PFN_VERSION 2

#define PFN_COMPLETE 1
#define PFN_INCOMPLETE 0

#define DEFAULT_BESTN 2
#define DEFAULT_MSCAN 0
#define DEFAULT_REPEAT 10
#define DEFAULT_EXP 2

#define PFN_PARTIAL_SCAN_BIT 0
#define PFN_PARTIAL_SCAN_MASK 1

#define PFN_SWC_RSSI_WINDOW_MAX 8
#define PFN_SWC_MAX_NUM_APS 16
#define PFN_HOTLIST_MAX_NUM_APS 64

#define MAX_EPNO_HIDDEN_SSID 8
#define MAX_WHITELIST_SSID 2

/* Version 1 and 2 for various scan results structures defined below */
#define PFN_SCANRESULTS_VERSION_V1 1
#define PFN_SCANRESULTS_VERSION_V2 2

/** PFN network info structure */
typedef struct wl_pfn_subnet_info_v1 {
    struct ether_addr BSSID;
    uint8 channel; /**< channel number only */
    uint8 SSID_len;
    uint8 SSID[32];
} wl_pfn_subnet_info_v1_t;

typedef struct wl_pfn_subnet_info_v2 {
    struct ether_addr BSSID;
    uint8 channel; /**< channel number only */
    uint8 SSID_len;
    union {
        uint8 SSID[32];
        uint16 index;
    } u;
} wl_pfn_subnet_info_v2_t;

typedef struct wl_pfn_net_info_v1 {
    wl_pfn_subnet_info_v1_t pfnsubnet;
    int16 RSSI;       /**< receive signal strength (in dBm) */
    uint16 timestamp; /**< age in seconds */
} wl_pfn_net_info_v1_t;

typedef struct wl_pfn_net_info_v2 {
    wl_pfn_subnet_info_v2_t pfnsubnet;
    int16 RSSI;       /**< receive signal strength (in dBm) */
    uint16 timestamp; /**< age in seconds */
} wl_pfn_net_info_v2_t;

/* Version 1 and 2 for various lbest scan results structures below */
#define PFN_LBEST_SCAN_RESULT_VERSION_V1 1
#define PFN_LBEST_SCAN_RESULT_VERSION_V2 2

#define MAX_CHBKT_PER_RESULT 4

typedef struct wl_pfn_lnet_info_v1 {
    wl_pfn_subnet_info_v1_t pfnsubnet; /**< BSSID + channel + SSID len + SSID */
    uint16 flags;                      /**< partial scan, etc */
    int16 RSSI;                        /**< receive signal strength (in dBm) */
    uint32 timestamp;                  /**< age in miliseconds */
    uint16 rtt0; /**< estimated distance to this AP in centimeters */
    uint16 rtt1; /**< standard deviation of the distance to this AP in
                    centimeters */
} wl_pfn_lnet_info_v1_t;

typedef struct wl_pfn_lnet_info_v2 {
    wl_pfn_subnet_info_v2_t pfnsubnet; /**< BSSID + channel + SSID len + SSID */
    uint16 flags;                      /**< partial scan, etc */
    int16 RSSI;                        /**< receive signal strength (in dBm) */
    uint32 timestamp;                  /**< age in miliseconds */
    uint16 rtt0; /**< estimated distance to this AP in centimeters */
    uint16 rtt1; /**< standard deviation of the distance to this AP in
                    centimeters */
} wl_pfn_lnet_info_v2_t;

typedef struct wl_pfn_lscanresults_v1 {
    uint32 version;
    uint32 status;
    uint32 count;
    wl_pfn_lnet_info_v1_t netinfo[1];
} wl_pfn_lscanresults_v1_t;

typedef struct wl_pfn_lscanresults_v2 {
    uint32 version;
    uint16 status;
    uint16 count;
    uint32 scan_ch_buckets[MAX_CHBKT_PER_RESULT];
    wl_pfn_lnet_info_v2_t netinfo[1];
} wl_pfn_lscanresults_v2_t;

/**this is used to report on 1-* pfn scan results */
typedef struct wl_pfn_scanresults_v1 {
    uint32 version;
    uint32 status;
    uint32 count;
    wl_pfn_net_info_v1_t netinfo[1];
} wl_pfn_scanresults_v1_t;

typedef struct wl_pfn_scanresults_v2 {
    uint32 version;
    uint32 status;
    uint32 count;
    uint32 scan_ch_bucket;
    wl_pfn_net_info_v2_t netinfo[1];
} wl_pfn_scanresults_v2_t;

typedef struct wl_pfn_significant_net {
    uint16 flags;
    uint16 channel;
    struct ether_addr BSSID;
    int8 rssi[PFN_SWC_RSSI_WINDOW_MAX];
} wl_pfn_significant_net_t;

#define PFN_SWC_SCANRESULT_VERSION 1

typedef struct wl_pfn_swc_results {
    uint32 version;
    uint32 pkt_count;   /**< No. of results in current frame */
    uint32 total_count; /**< Total expected results */
    wl_pfn_significant_net_t list[];
} wl_pfn_swc_results_t;
typedef struct wl_pfn_net_info_bssid {
    struct ether_addr BSSID;
    uint8 channel;    /**< channel number only */
    int8 RSSI;        /**< receive signal strength (in dBm) */
    uint16 flags;     /**< (e.g. partial scan, off channel) */
    uint16 timestamp; /**< age in seconds */
} wl_pfn_net_info_bssid_t;

typedef struct wl_pfn_scanhist_bssid {
    uint32 version;
    uint32 status;
    uint32 count;
    wl_pfn_net_info_bssid_t netinfo[1];
} wl_pfn_scanhist_bssid_t;

/* Version 1 and 2 for various single scan result */
#define PFN_SCANRESULT_VERSION_V1 1
#define PFN_SCANRESULT_VERSION_V2 2

/* used to report exactly one scan result */
/* plus reports detailed scan info in bss_info */
typedef struct wl_pfn_scanresult_v1 {
    uint32 version;
    uint32 status;
    uint32 count;
    wl_pfn_net_info_v1_t netinfo;
    wl_bss_info_v109_t bss_info;
} wl_pfn_scanresult_v1_t;

typedef struct wl_pfn_scanresult_v2 {
    uint32 version;
    uint32 status;
    uint32 count;
    wl_pfn_net_info_v2_t netinfo;
    wl_bss_info_v109_t bss_info;
} wl_pfn_scanresult_v2_t;

typedef struct wl_pfn_scanresult_v2_1 {
    uint32 version;
    uint32 status;
    uint32 count;
    wl_pfn_net_info_v2_t netinfo;
    uint8 bss_info[]; /* var length wl_bss_info_X structures */
} wl_pfn_scanresult_v2_1_t;

/**PFN data structure */
typedef struct wl_pfn_param {
    int32 version;              /**< PNO parameters version */
    int32 scan_freq;            /**< Scan frequency */
    int32 lost_network_timeout; /**< Timeout in sec. to declare
                                 * discovered network as lost
                                 */
    int16 flags;                /**< Bit field to control features
                                 * of PFN such as sort criteria auto
                                 * enable switch and background scan
                                 */
    int16 rssi_margin;          /**< Margin to avoid jitter for choosing a
                                 * PFN based on RSSI sort criteria
                                 */
    uint8 bestn;                /**< number of best networks in each scan */
    uint8 mscan;                /**< number of scans recorded */
    uint8 repeat;               /**< Minimum number of scan intervals
                                 *before scan frequency changes in adaptive scan
                                 */
    uint8 exp;                  /**< Exponent of 2 for maximum scan interval */
    int32 slow_freq;            /**< slow scan period */
} wl_pfn_param_t;

typedef struct wl_pfn_bssid {
    struct ether_addr macaddr;
    /* Bit4: suppress_lost, Bit3: suppress_found */
    uint16 flags;
} wl_pfn_bssid_t;
typedef struct wl_pfn_significant_bssid {
    struct ether_addr macaddr;
    int8 rssi_low_threshold;
    int8 rssi_high_threshold;
} wl_pfn_significant_bssid_t;
#define WL_PFN_SUPPRESSFOUND_MASK 0x08
#define WL_PFN_SUPPRESSLOST_MASK 0x10
#define WL_PFN_SSID_IMPRECISE_MATCH 0x80
#define WL_PFN_SSID_SAME_NETWORK 0x10000
#define WL_PFN_SUPPRESS_AGING_MASK 0x20000
#define WL_PFN_FLUSH_ALL_SSIDS 0x40000

#define WL_PFN_IOVAR_FLAG_MASK 0xFFFF00FF
#define WL_PFN_RSSI_MASK 0xff00
#define WL_PFN_RSSI_SHIFT 8

typedef struct wl_pfn_cfg {
    uint32 reporttype;
    int32 channel_num;
    uint16 channel_list[WL_NUMCHANNELS];
    uint32 flags;
} wl_pfn_cfg_t;

#define WL_PFN_SSID_CFG_VERSION 1
#define WL_PFN_SSID_CFG_CLEAR 0x1

typedef struct wl_pfn_ssid_params {
    int8 min5G_rssi; /* minimum 5GHz RSSI for a BSSID to be considered      */
    int8 min2G_rssi; /* minimum 2.4GHz RSSI for a BSSID to be considered   */
    int16 init_score_max; /* The maximum score that a network can have before
                             bonuses  */

    int16 cur_bssid_bonus; /* Add to current bssid */
    int16 same_ssid_bonus; /* score bonus for all networks with the same network
                              flag   */
    int16 secure_bonus;    /* score bonus for networks that are not open    */
    int16 band_5g_bonus;
} wl_pfn_ssid_params_t;

typedef struct wl_ssid_ext_params {
    int8 min5G_rssi; /* minimum 5GHz RSSI for a BSSID to be considered      */
    int8 min2G_rssi; /* minimum 2.4GHz RSSI for a BSSID to be considered   */
    int16 init_score_max;  /* The maximum score that a network can have before
                              bonuses  */
    int16 cur_bssid_bonus; /* Add to current bssid */
    int16 same_ssid_bonus; /* score bonus for all networks with the same network
                              flag   */
    int16 secure_bonus;    /* score bonus for networks that are not open    */
    int16 band_5g_bonus;
} wl_ssid_ext_params_t;

typedef struct wl_pfn_ssid_cfg {
    uint16 version;
    uint16 flags;
    wl_ssid_ext_params_t params;
} wl_pfn_ssid_cfg_t;

#define CH_BUCKET_REPORT_NONE 0
#define CH_BUCKET_REPORT_SCAN_COMPLETE_ONLY 1
#define CH_BUCKET_REPORT_FULL_RESULT 2
#define CH_BUCKET_REPORT_SCAN_COMPLETE                                         \
    (CH_BUCKET_REPORT_SCAN_COMPLETE_ONLY | CH_BUCKET_REPORT_FULL_RESULT)
#define CH_BUCKET_REPORT_REGULAR 0
#define CH_BUCKET_GSCAN 4

typedef struct wl_pfn_gscan_ch_bucket_cfg {
    uint8 bucket_end_index;
    uint8 bucket_freq_multiple;
    uint8 flag;
    uint8 reserved;
    uint16 repeat;
    uint16 max_freq_multiple;
} wl_pfn_gscan_ch_bucket_cfg_t;

typedef struct wl_pfn_capabilities {
    uint16 max_mscan;
    uint16 max_bestn;
    uint16 max_swc_bssid;
    uint16 max_hotlist_bssid;
} wl_pfn_capabilities_t;

#define GSCAN_SEND_ALL_RESULTS_MASK (1 << 0)
#define GSCAN_ALL_BUCKETS_IN_FIRST_SCAN_MASK (1 << 3)
#define GSCAN_CFG_FLAGS_ONLY_MASK (1 << 7)
#define WL_GSCAN_CFG_VERSION 1
typedef struct wl_pfn_gscan_cfg {
    uint16 version;
    /**
     * BIT0 1 = send probes/beacons to HOST
     * BIT1 Reserved
     * BIT2 Reserved
     * Add any future flags here
     * BIT7 1 = no other useful cfg sent
     */
    uint8 flags;
    /** Buffer filled threshold in % to generate an event */
    uint8 buffer_threshold;
    /**
     * No. of BSSIDs with "change" to generate an evt
     * change - crosses rssi threshold/lost
     */
    uint8 swc_nbssid_threshold;
    /* Max=8 (for now) Size of rssi cache buffer */
    uint8 swc_rssi_window_size;
    uint8 count_of_channel_buckets;
    uint8 retry_threshold;
    uint16 lost_ap_window;
    wl_pfn_gscan_ch_bucket_cfg_t channel_bucket[1];
} wl_pfn_gscan_cfg_t;

#define WL_PFN_REPORT_ALLNET 0
#define WL_PFN_REPORT_SSIDNET 1
#define WL_PFN_REPORT_BSSIDNET 2

#define WL_PFN_CFG_FLAGS_PROHIBITED                                            \
    0x00000001 /* Accept and use prohibited channels */
#define WL_PFN_CFG_FLAGS_RESERVED                                              \
    0xfffffffe /**< Remaining reserved for future use */

typedef struct wl_pfn {
    wlc_ssid_t ssid; /**< ssid name and its length */
    int32 flags;     /**< bit2: hidden */
    int32 infra;     /**< BSS Vs IBSS */
    int32 auth;      /**< Open Vs Closed */
    int32 wpa_auth;  /**< WPA type */
    int32 wsec;      /**< wsec value */
} wl_pfn_t;

typedef struct wl_pfn_list {
    uint32 version;
    uint32 enabled;
    uint32 count;
    wl_pfn_t pfn[1];
} wl_pfn_list_t;

#define PFN_SSID_EXT_VERSION 1

typedef struct wl_pfn_ext {
    uint8 flags;
    int8 rssi_thresh; /* RSSI threshold, track only if RSSI > threshold */
    uint16 wpa_auth;  /* Match the wpa auth type defined in wlioctl_defs.h */
    uint8 ssid[DOT11_MAX_SSID_LEN];
    uint8 ssid_len;
    uint8 pad;
} wl_pfn_ext_t;
typedef struct wl_pfn_ext_list {
    uint16 version;
    uint16 count;
    wl_pfn_ext_t pfn_ext[1];
} wl_pfn_ext_list_t;

#define WL_PFN_SSID_EXT_FOUND 0x1
#define WL_PFN_SSID_EXT_LOST 0x2
typedef struct wl_pfn_result_ssid {
    uint8 flags;
    int8 rssi;
    /* channel number */
    uint16 channel;
    /* Assume idx in order of cfg */
    uint32 index;
} wl_pfn_result_ssid_crc32_t;

typedef struct wl_pfn_ssid_ext_result {
    uint16 version;
    uint16 count;
    wl_pfn_result_ssid_crc32_t net[1];
} wl_pfn_ssid_ext_result_t;

#define PFN_EXT_AUTH_CODE_OPEN 1  /* open */
#define PFN_EXT_AUTH_CODE_PSK 2   /* WPA_PSK or WPA2PSK */
#define PFN_EXT_AUTH_CODE_EAPOL 4 /* any EAPOL  */

#define WL_PFN_HIDDEN_BIT 2
#define WL_PFN_HIDDEN_MASK 0x4

#ifndef BESTN_MAX
#define BESTN_MAX 10
#endif // endif

#ifndef MSCAN_MAX
#define MSCAN_MAX 90
#endif // endif

/* Dynamic scan configuration for motion profiles */

#define WL_PFN_MPF_VERSION 1

/* Valid group IDs, may be expanded in the future */
#define WL_PFN_MPF_GROUP_SSID 0
#define WL_PFN_MPF_GROUP_BSSID 1
#define WL_PFN_MPF_MAX_GROUPS 2

/* Max number of MPF states supported in this time */
#define WL_PFN_MPF_STATES_MAX 4

/* Flags for the mpf-specific stuff */
#define WL_PFN_MPF_ADAPT_ON_BIT 0
#define WL_PFN_MPF_ADAPTSCAN_BIT 1

#define WL_PFN_MPF_ADAPT_ON_MASK 0x0001
#define WL_PFN_MPF_ADAPTSCAN_MASK 0x0006

/* Per-state timing values */
typedef struct wl_pfn_mpf_state_params {
    int32 scan_freq;            /* Scan frequency (secs) */
    int32 lost_network_timeout; /* Timeout to declare net lost (secs) */
    int16 flags;                /* Space for flags: ADAPT etc */
    uint8 exp;       /* Exponent of 2 for max interval for SMART/STRICT_ADAPT */
    uint8 repeat;    /* Number of scans before changing adaptation level */
    int32 slow_freq; /* Slow scan period for SLOW_ADAPT */
} wl_pfn_mpf_state_params_t;

typedef struct wl_pfn_mpf_param {
    uint16 version; /* Structure version */
    uint16 groupid; /* Group ID: 0 (SSID), 1 (BSSID), other: reserved */
    wl_pfn_mpf_state_params_t state[WL_PFN_MPF_STATES_MAX];
} wl_pfn_mpf_param_t;

/* Structure for setting pfn_override iovar */
typedef struct wl_pfn_override_param {
    uint16 version;      /* Structure version */
    uint16 start_offset; /* Seconds from now to apply new params */
    uint16 duration;     /* Seconds to keep new params applied */
    uint16 reserved;
    wl_pfn_mpf_state_params_t override;
} wl_pfn_override_param_t;
#define WL_PFN_OVERRIDE_VERSION 1

/*
 * Definitions for base MPF configuration
 */

#define WL_MPF_VERSION 1
#define WL_MPF_MAX_BITS 3
#define WL_MPF_MAX_STATES (1 << WL_MPF_MAX_BITS)

#define WL_MPF_STATE_NAME_MAX 12

typedef struct wl_mpf_val {
    uint16 val;                       /* Value of GPIO bits */
    uint16 state;                     /* State identifier */
    char name[WL_MPF_STATE_NAME_MAX]; /* Optional name */
} wl_mpf_val_t;

typedef struct wl_mpf_map {
    uint16 version;
    uint16 type;
    uint16 mask; /* Which GPIO bits to use */
    uint8 count; /* Count of state/value mappings */
    uint8 PAD;
    wl_mpf_val_t vals[WL_MPF_MAX_STATES];
} wl_mpf_map_t;

#define WL_MPF_STATE_AUTO (0xFFFF) /* (uint16)-1) */

typedef struct wl_mpf_state {
    uint16 version;
    uint16 type;
    uint16 state; /* Get/Set */
    uint8 force;  /* 0 - auto (HW) state, 1 - forced state */
    char name[WL_MPF_STATE_NAME_MAX]; /* Get/Set: Optional/actual name */
    uint8 PAD;
} wl_mpf_state_t;
/*
 * WLFCTS definition
 */
typedef struct wl_txstatus_additional_info {
    uint32 rspec;
    uint32 enq_ts;
    uint32 last_ts;
    uint32 entry_ts;
    uint16 seq;
    uint8 rts_cnt;
    uint8 tx_cnt;
} wl_txstatus_additional_info_t;

/** Service discovery */
typedef struct {
    uint8 transaction_id; /**< Transaction id */
    uint8 protocol;       /**< Service protocol type */
    uint16 query_len;     /**< Length of query */
    uint16 response_len;  /**< Length of response */
    uint8 qrbuf[];
} wl_p2po_qr_t;

typedef struct {
    uint16 period;   /**< extended listen period */
    uint16 interval; /**< extended listen interval */
    uint16 count;    /* count to repeat */
    uint16 pad;      /* pad for 32bit align */
} wl_p2po_listen_t;

/** GAS state machine tunable parameters.  Structure field values of 0 means use
 * the default. */
typedef struct wl_gas_config {
    uint16 max_retransmit;   /**< Max # of firmware/driver retransmits on no Ack
                              * from peer (on top of the ucode retries).
                              */
    uint16 response_timeout; /**< Max time to wait for a GAS-level response
                              * after sending a packet.
                              */
    uint16 max_comeback_delay; /**< Max GAS response comeback delay.
                                * Exceeding this fails the GAS exchange.
                                */
    uint16 max_retries; /**< Max # of GAS state machine retries on failure
                         * of a GAS frame exchange.
                         */
} wl_gas_config_t;

/** P2P Find Offload parameters */
typedef struct wl_p2po_find_config {
    uint16 version;         /**< Version of this struct */
    uint16 length;          /**< sizeof(wl_p2po_find_config_t) */
    int32 search_home_time; /**< P2P search state home time when concurrent
                             * connection exists.  -1 for default.
                             */
    uint8 num_social_channels;
    /**< Number of social channels up to WL_P2P_SOCIAL_CHANNELS_MAX.
     * 0 means use default social channels.
     */
    uint8 flags;
    uint16 social_channels[1]; /**< Variable length array of social channels */
} wl_p2po_find_config_t;
#define WL_P2PO_FIND_CONFIG_VERSION 2 /**< value for version field */

/** wl_p2po_find_config_t flags */
#define P2PO_FIND_FLAG_SCAN_ALL_APS                                            \
    0x01 /**< Whether to scan for all APs in the p2po_find                     \
          * periodic scans of all channels.                                    \
          * 0 means scan for only P2P devices.                                 \
          * 1 means scan for P2P devices plus non-P2P APs.                     \
          */

/** For adding a WFDS service to seek */
typedef struct {
    uint32 seek_hdl; /**< unique id chosen by host */
    uint8 addr[6];   /**< Seek service from a specific device with this
                      * MAC address, all 1's for any device.
                      */
    uint8 service_hash[P2P_WFDS_HASH_LEN];
    uint8 service_name_len;
    uint8 service_name[MAX_WFDS_SEEK_SVC_NAME_LEN];
    /**< Service name to seek, not null terminated */
    uint8 service_info_req_len;
    uint8 service_info_req[1]; /**< Service info request, not null terminated.
                                * Variable length specified by
                                * service_info_req_len. Maximum length is
                                * MAX_WFDS_SEEK_SVC_INFO_LEN.
                                */
} wl_p2po_wfds_seek_add_t;

/** For deleting a WFDS service to seek */
typedef struct {
    uint32 seek_hdl; /**< delete service specified by id */
} wl_p2po_wfds_seek_del_t;

/** For adding a WFDS service to advertise */
#include <packed_section_start.h>
typedef BWL_PRE_PACKED_STRUCT struct {
    uint32 advertise_hdl; /**< unique id chosen by host */
    uint8 service_hash[P2P_WFDS_HASH_LEN];
    uint32 advertisement_id;
    uint16 service_config_method;
    uint8 service_name_len;
    uint8 service_name[MAX_WFDS_SVC_NAME_LEN];
    /**< Service name , not null terminated */
    uint8 service_status;
    uint16 service_info_len;
    uint8 service_info[1]; /**< Service info, not null terminated.
                            * Variable length specified by service_info_len.
                            * Maximum length is MAX_WFDS_ADV_SVC_INFO_LEN.
                            */
} BWL_POST_PACKED_STRUCT wl_p2po_wfds_advertise_add_t;
#include <packed_section_end.h>

/** For deleting a WFDS service to advertise */
typedef struct {
    uint32 advertise_hdl; /**< delete service specified by hdl */
} wl_p2po_wfds_advertise_del_t;

/** P2P Offload discovery mode for the p2po_state iovar */
typedef enum {
    WL_P2PO_DISC_STOP,
    WL_P2PO_DISC_LISTEN,
    WL_P2PO_DISC_DISCOVERY
} disc_mode_t;

/* ANQP offload */

#define ANQPO_MAX_QUERY_SIZE 256
typedef struct {
    uint16 max_retransmit;   /**< ~0 use default, max retransmit on no ACK from
                                peer */
    uint16 response_timeout; /**< ~0 use default, msec to wait for resp after tx
                                packet */
    uint16 max_comeback_delay; /**< ~0 use default, max comeback delay in resp
                                  else fail */
    uint16 max_retries;        /**< ~0 use default, max retries on failure */
    uint16 query_len;          /**< length of ANQP query */
    uint8 query_data[1]; /**< ANQP encoded query (max ANQPO_MAX_QUERY_SIZE) */
} wl_anqpo_set_t;

#define WL_ANQPO_FLAGS_BSSID_WILDCARD 0x0001
#define WL_ANQPO_PEER_LIST_VERSION_2 2
typedef struct {
    uint16 channel;         /**< channel of the peer */
    struct ether_addr addr; /**< addr of the peer */
} wl_anqpo_peer_v1_t;
typedef struct {
    uint16 channel;         /**< channel of the peer */
    struct ether_addr addr; /**< addr of the peer */
    uint32 flags;           /**< 0x01-Peer is MBO Capable */
} wl_anqpo_peer_v2_t;

#define ANQPO_MAX_PEER_LIST 64
typedef struct {
    uint16 count;               /**< number of peers in list */
    wl_anqpo_peer_v1_t peer[1]; /**< max ANQPO_MAX_PEER_LIST */
} wl_anqpo_peer_list_v1_t;

typedef struct {
    uint16 version;             /**<VERSION */
    uint16 length;              /**< length of entire structure */
    uint16 count;               /**< number of peers in list */
    wl_anqpo_peer_v2_t peer[1]; /**< max ANQPO_MAX_PEER_LIST */
} wl_anqpo_peer_list_v2_t;

#ifndef WL_ANQPO_PEER_LIST_TYPEDEF_HAS_ALIAS
typedef wl_anqpo_peer_list_v1_t wl_anqpo_peer_list_t;
typedef wl_anqpo_peer_v1_t wl_anqpo_peer_t;
#endif /* WL_ANQPO_PEER_LIST_TYPEDEF_HAS_ALIAS */

#define ANQPO_MAX_IGNORE_SSID 64
typedef struct {
    uint8 is_clear; /**< set to clear list (not used on GET) */
    uint8 PAD;
    uint16 count;       /**< number of SSID in list */
    wlc_ssid_t ssid[1]; /**< max ANQPO_MAX_IGNORE_SSID */
} wl_anqpo_ignore_ssid_list_t;

#define ANQPO_MAX_IGNORE_BSSID 64
typedef struct {
    uint8 is_clear; /**< set to clear list (not used on GET) */
    uint8 PAD;
    uint16 count;              /**< number of addr in list */
    struct ether_addr bssid[]; /**< max ANQPO_MAX_IGNORE_BSSID */
} wl_anqpo_ignore_bssid_list_t;

struct toe_ol_stats_t {
    /** Num of tx packets that don't need to be checksummed */
    uint32 tx_summed;

    /* Num of tx packets where checksum is filled by offload engine */
    uint32 tx_iph_fill;
    uint32 tx_tcp_fill;
    uint32 tx_udp_fill;
    uint32 tx_icmp_fill;

    /*  Num of rx packets where toe finds out if checksum is good or bad */
    uint32 rx_iph_good;
    uint32 rx_iph_bad;
    uint32 rx_tcp_good;
    uint32 rx_tcp_bad;
    uint32 rx_udp_good;
    uint32 rx_udp_bad;
    uint32 rx_icmp_good;
    uint32 rx_icmp_bad;

    /* Num of tx packets in which csum error is injected */
    uint32 tx_tcp_errinj;
    uint32 tx_udp_errinj;
    uint32 tx_icmp_errinj;

    /* Num of rx packets in which csum error is injected */
    uint32 rx_tcp_errinj;
    uint32 rx_udp_errinj;
    uint32 rx_icmp_errinj;
};

/** Arp offload statistic counts */
struct arp_ol_stats_t {
    uint32 host_ip_entries;  /**< Host IP table addresses (more than one if
                                multihomed) */
    uint32 host_ip_overflow; /**< Host IP table additions skipped due to
                                overflow */

    uint32 arp_table_entries; /**< ARP table entries */
    uint32
        arp_table_overflow; /**< ARP table additions skipped due to overflow */

    uint32 host_request; /**< ARP requests from host */
    uint32 host_reply;   /**< ARP replies from host */
    uint32 host_service; /**< ARP requests from host serviced by ARP Agent */

    uint32 peer_request; /**< ARP requests received from network */
    uint32
        peer_request_drop;  /**< ARP requests from network that were dropped */
    uint32 peer_reply;      /**< ARP replies received from network */
    uint32 peer_reply_drop; /**< ARP replies from network that were dropped */
    uint32 peer_service;    /**< ARP request from host serviced by ARP Agent */
};

/** NS offload statistic counts */
struct nd_ol_stats_t {
    uint32 host_ip_entries;   /**< Host IP table addresses (more than one if
                                 multihomed) */
    uint32 host_ip_overflow;  /**< Host IP table additions skipped due to
                                 overflow */
    uint32 peer_request;      /**< NS requests received from network */
    uint32 peer_request_drop; /**< NS requests from network that were dropped */
    uint32 peer_reply_drop;   /**< NA replies from network that were dropped */
    uint32 peer_service;      /**< NS request from host serviced by firmware */
};

/*
 * Neighbor Discovery Offloading
 */
enum { WL_ND_IPV6_ADDR_TYPE_UNICAST = 0, WL_ND_IPV6_ADDR_TYPE_ANYCAST };

typedef struct wl_nd_host_ip_addr {
    struct ipv6_addr ip_addr; /* host ip address */
    uint8 type;               /* type of address */
    uint8 pad[3];
} wl_nd_host_ip_addr_t;

typedef struct wl_nd_host_ip_list {
    uint32 count;
    wl_nd_host_ip_addr_t host_ip[1];
} wl_nd_host_ip_list_t;

#define WL_ND_HOSTIP_IOV_VER 1

enum {
    WL_ND_HOSTIP_OP_VER = 0, /* get version */
    WL_ND_HOSTIP_OP_ADD,     /* add address */
    WL_ND_HOSTIP_OP_DEL,     /* delete specified address */
    WL_ND_HOSTIP_OP_DEL_UC,  /* delete all unicast address */
    WL_ND_HOSTIP_OP_DEL_AC,  /* delete all anycast address */
    WL_ND_HOSTIP_OP_DEL_ALL, /* delete all addresses */
    WL_ND_HOSTIP_OP_LIST,    /* get list of host ip address */
    WL_ND_HOSTIP_OP_MAX
};

typedef struct wl_nd_hostip {
    uint16 version; /* version of iovar buf */
    uint16 op_type; /* operation type */
    uint32 length;  /* length of entire structure */
    union {
        wl_nd_host_ip_addr_t host_ip; /* set param for add */
        uint16 version;               /* get return for ver */
    } u;
} wl_nd_hostip_t;

#define WL_ND_HOSTIP_FIXED_LEN OFFSETOF(wl_nd_hostip_t, u)
#define WL_ND_HOSTIP_WITH_ADDR_LEN                                             \
    (WL_ND_HOSTIP_FIXED_LEN + sizeof(wl_nd_host_ip_addr_t))

/*
 * Keep-alive packet offloading.
 */

/**
 * NAT keep-alive packets format: specifies the re-transmission period, the
 * packet length, and packet contents.
 */
typedef struct wl_keep_alive_pkt {
    uint32 period_msec; /** Retransmission period (0 to disable packet
                           re-transmits) */
    uint16 len_bytes;   /* Size of packet to transmit (0 to disable packet
                           re-transmits) */
    uint8 data[1];      /** Variable length packet to transmit.  Contents should
                         * include      entire ethernet packet (enet header, IP header,
                         * UDP header,      and UDP payload) in network byte order.
                         */
} wl_keep_alive_pkt_t;

#define WL_KEEP_ALIVE_FIXED_LEN OFFSETOF(wl_keep_alive_pkt_t, data)

#define MAX_RSSI_COUNT 8
typedef struct rssi_struct {
    int8 val[MAX_RSSI_COUNT]; /**< rssi values in AFs */
    int16 sum;                /**< total rssi sum */
    uint8 cnt;                /**< number rssi samples */
    uint8 idx;                /**< next rssi location */
} rssi_struct_t;

#ifdef WLDFSP
#define DFSP_EVT_OFFSET OFFSETOF(dfsp_event_data_t, ie)
#define DFSP_EVT_FLAGS_AP_ASSOC (1 << 0)
#define DFSP_EVT_FLAGS_AP_BCNMON (1 << 1)
#define DFSP_EVT_FLAGS_PROXY_BCSA (1 << 2)
#define DFSP_EVT_FLAGS_PROXY_UCSA (1 << 3)
#define DFSP_EVT_FLAGS_PROXY_PCSA (1 << 4)

typedef struct dfsp_event_data {
    uint16 flags; /* indicate what triggers the event */
    uint16 ie_len;
    uint8 ie[]; /* variable length */
} dfsp_event_data_t;

/* Proxy Channel Switch Announcement is a collection of IEs */
typedef struct dfsp_pcsa {
    dot11_ext_csa_ie_t ecsa;
    dot11_mesh_csp_ie_t mcsp;
    dot11_wide_bw_chan_switch_ie_t wbcs;
} dfsp_pcsa_t;

/* DFS Proxy */
#define DFSP_CFG_VERSION 1
#define DFSP_FLAGS_ENAB 0x1
typedef struct dfsp_cfg {
    uint16 version;
    uint16 len;
    uint16 flags;            /**< bit 1 to enable/disable the feature */
    uint16 max_bcn_miss_dur; /**< maximum beacon miss duration before ceasing
                                data tx */
    uint8 mcsp_ttl; /**< remaining number of hops allowed for pcsa message */
    uint8 bcsa_cnt; /**< repeat numbers of broadcast CSA */
    chanspec_t mon_chan;         /**< passive monitoring channel spec */
    struct ether_addr mon_bssid; /**< broadcast means monitoring all */
    uint16 max_bcn_miss_dur_af; /**< maximum beacon miss duration before ceasing
                                   AF tx */
} dfsp_cfg_t;

#define DFSP_UCSA_VERSION 1
typedef struct dfsp_ucsa {
    uint16 version;
    uint16 len;
    struct ether_addr address;
    uint8 enable;
    uint8 retry_cnt; /**< just in case host needs to control the value */
} dfsp_ucsa_t;

typedef struct dfsp_ucsa_tbl {
    uint8 tbl_num;
    uint8 tbl[];
} dfsp_ucsa_tbl_t;

typedef struct dfsp_stats {
    uint32 dfsp_csainfra;
    uint32 dfsp_csabcnmon;
    uint32 dfsp_bcsarx;
    uint32 dfsp_ucsarx;
    uint32 dfsp_pcsarx;
    uint32 dfsp_bcsatx;
    uint32 dfsp_ucsatx;
    uint32 dfsp_pcsatx;
    uint32 dfsp_ucsatxfail;
    uint32 dfsp_evtnotif;
    uint32 dfsp_evtsuspect;
    uint32 dfsp_evtresume;
} dfsp_stats_t;
#endif /* WLDFSP */

/*
 * ptk_start: iovar to start 4-way handshake for secured ranging
 */

/* ptk negotiation security type - determines negotiation parameters */
typedef enum { WL_PTK_START_SEC_TYPE_PMK = 1 } wl_ptk_start_sec_type_t;

/* ptk negotiation role */
typedef enum {
    ROLE_NONE = 0x0,
    ROLE_AUTH = 0x1,
    ROLE_SUP = 0x2,
    ROLE_STATIC = 0x3,
    ROLE_INVALID = 0xff,
    WL_PTK_START_ROLE_NONE = ROLE_NONE,
    WL_PTK_START_ROLE_AUTH = ROLE_AUTH,
    WL_PTK_START_ROLE_SUP = ROLE_SUP,
    WL_PTK_START_ROLE_STATIC = ROLE_STATIC,
    WL_PTK_START_ROLE_INVALID = ROLE_INVALID
} wl_ptk_start_role_t;

typedef struct wl_ptk_start_tlv {
    uint16 id;
    uint16 len;
    uint8 data[1];
} wl_ptk_start_tlv_t;

typedef enum {
    WL_PTK_START_TLV_PMK = 1 /* uint8[] */
} wl_ptk_start_tlv_type;

typedef enum {
    WL_PTK_START_FLAG_NO_DATA_PROT = 1, /* data frame protection disabled */
    WL_PTK_START_FLAG_GEN_FTM_TPK =
        2 /* Generate FTM Toast/Seq Protection Key */
} wl_ptk_start_flags_t;

typedef struct wl_ptk_start_iov {
    uint16 version;
    uint16 len; /* length of entire iov from version */
    wl_ptk_start_flags_t flags;
    wl_ptk_start_sec_type_t sec_type;
    wl_ptk_start_role_t role;
    struct ether_addr peer_addr;
    uint16 pad; /* reserved/32 bit alignment */
    wl_ptk_start_tlv_t tlvs[1];
} wl_ptk_start_iov_t;

/*
 * Dongle pattern matching filter.
 */

#define MAX_WAKE_PACKET_CACHE_BYTES 128 /**< Maximum cached wake packet */

#define MAX_WAKE_PACKET_BYTES                                                  \
    (DOT11_A3_HDR_LEN + DOT11_QOS_LEN + sizeof(struct dot11_llc_snap_header) + \
     ETHER_MAX_DATA)

typedef struct pm_wake_packet {
    uint32 status; /**< Is the wake reason a packet (if all the other field's
                      valid) */
    uint32 pattern_id; /**< Pattern ID that matched */
    uint32 original_packet_size;
    uint32 saved_packet_size;
    uint8 packet[MAX_WAKE_PACKET_CACHE_BYTES];
} pm_wake_packet_t;

/* Packet filter types. Currently, only pattern matching is supported. */
typedef enum wl_pkt_filter_type {
    WL_PKT_FILTER_TYPE_PATTERN_MATCH = 0,       /**< Pattern matching filter */
    WL_PKT_FILTER_TYPE_MAGIC_PATTERN_MATCH = 1, /**< Magic packet match */
    WL_PKT_FILTER_TYPE_PATTERN_LIST_MATCH =
        2, /**< A pattern list (match all to match filter) */
    WL_PKT_FILTER_TYPE_ENCRYPTED_PATTERN_MATCH =
        3, /**< SECURE WOWL magic / net pattern match */
    WL_PKT_FILTER_TYPE_APF_MATCH = 4, /* Android packet filter match */
    WL_PKT_FILTER_TYPE_PATTERN_MATCH_TIMEOUT =
        5, /* Pattern matching filter with timeout event */
    WL_PKT_FILTER_TYPE_IMMEDIATE_PATTERN_MATCH =
        6,                       /* Immediately pattern matching filter */
    WL_PKT_FILTYER_TYPE_MAX = 7, /* Pkt filter type MAX */
} wl_pkt_filter_type_t;

#define WL_PKT_FILTER_TYPE wl_pkt_filter_type_t

/* String mapping for types that may be used by applications or debug */
#define WL_PKT_FILTER_TYPE_NAMES                                               \
    {"PATTERN", WL_PKT_FILTER_TYPE_PATTERN_MATCH},                             \
        {"MAGIC", WL_PKT_FILTER_TYPE_MAGIC_PATTERN_MATCH},                     \
        {"PATLIST", WL_PKT_FILTER_TYPE_PATTERN_LIST_MATCH},                    \
        {"SECURE WOWL", WL_PKT_FILTER_TYPE_ENCRYPTED_PATTERN_MATCH},           \
        {"APF", WL_PKT_FILTER_TYPE_APF_MATCH},                                 \
        {"PATTERN TIMEOUT", WL_PKT_FILTER_TYPE_PATTERN_MATCH_TIMEOUT},         \
    {                                                                          \
        "IMMEDIATE", WL_PKT_FILTER_TYPE_IMMEDIATE_PATTERN_MATCH                \
    }

/** Secured WOWL packet was encrypted, need decrypted before check filter match
 */
typedef struct wl_pkt_decrypter {
    uint8 *(*dec_cb)(void *dec_ctx, const void *sdu, int sending);
    void *dec_ctx;
} wl_pkt_decrypter_t;

/**
 * Pattern matching filter. Specifies an offset within received packets to
 * start matching, the pattern to match, the size of the pattern, and a bitmask
 * that indicates which bits within the pattern should be matched.
 */
typedef struct wl_pkt_filter_pattern {
    uint32 offset; /**< Offset within received packet to start pattern matching.
                    * Offset '0' is the first byte of the ethernet header.
                    */
    uint32
        size_bytes; /**< Size of the pattern.  Bitmask must be the same size. */
    uint8 mask_and_pattern[]; /**< Variable length mask and pattern data.  mask
                               * starts at offset 0.  Pattern immediately
                               * follows mask. for secured pattern, put the
                               * descrypter pointer to the beginning, mask and
                               * pattern postponed correspondingly
                               */
} wl_pkt_filter_pattern_t;

/** A pattern list is a numerically specified list of modified pattern
 * structures. */
typedef struct wl_pkt_filter_pattern_listel {
    uint16 rel_offs;    /**< Offset to begin match (relative to 'base' below) */
    uint16 base_offs;   /**< Base for offset (defined below) */
    uint16 size_bytes;  /**< Size of mask/pattern */
    uint16 match_flags; /**< Addition flags controlling the match */
    uint8 mask_and_data[]; /**< Variable length mask followed by data, each
                              size_bytes */
} wl_pkt_filter_pattern_listel_t;

typedef struct wl_pkt_filter_pattern_list {
    uint8 list_cnt; /**< Number of elements in the list */
    uint8 PAD1[1];  /**< Reserved (possible version: reserved) */
    uint16
        totsize; /**< Total size of this pattern list (includes this struct) */
    uint8 patterns[]; /**< Variable number of wl_pkt_filter_pattern_listel_t
                         elements */
} wl_pkt_filter_pattern_list_t;

typedef struct wl_apf_program {
    uint16 version;
    uint16 instr_len; /* number of instruction blocks */
    uint32 inst_ts;   /* program installation timestamp */
    uint8 instrs[];   /* variable length instructions */
} wl_apf_program_t;

typedef struct wl_pkt_filter_pattern_timeout {
    uint32 offset; /* Offset within received packet to start pattern matching.
                    * Offset '0' is the first byte of the ethernet header.
                    */
    uint32 size_bytes; /* Size of the pattern. Bitmask must be the same size. */
    uint32 timeout;    /* Timeout(seconds) */
    uint8 mask_and_pattern[]; /* Variable length mask and pattern data.
                               * mask starts at offset 0. Pattern
                               * immediately follows mask.
                               */
} wl_pkt_filter_pattern_timeout_t;

/** IOVAR "pkt_filter_add" parameter. Used to install packet filters. */
typedef struct wl_pkt_filter {
    uint32 id;           /**< Unique filter id, specified by app. */
    uint32 type;         /**< Filter type (WL_PKT_FILTER_TYPE_xxx). */
    uint32 negate_match; /**< Negate the result of filter matches */
    union {              /* Filter definitions */
        wl_pkt_filter_pattern_t pattern;      /**< Pattern matching filter */
        wl_pkt_filter_pattern_list_t patlist; /**< List of patterns to match */
        wl_apf_program_t apf_program;         /* apf program */
        wl_pkt_filter_pattern_timeout_t
            pattern_timeout; /* Pattern timeout event filter */
    } u;
    /* Do NOT add structure members after the filter definitions, since they
     * may include variable length arrays.
     */
} wl_pkt_filter_t;

/** IOVAR "tcp_keep_set" parameter. Used to install tcp keep_alive stuff. */
typedef struct wl_tcp_keep_set {
    uint32 val1;
    uint32 val2;
} wl_tcp_keep_set_t;

#define WL_PKT_FILTER_FIXED_LEN OFFSETOF(wl_pkt_filter_t, u)
#define WL_PKT_FILTER_PATTERN_FIXED_LEN                                        \
    OFFSETOF(wl_pkt_filter_pattern_t, mask_and_pattern)
#define WL_PKT_FILTER_PATTERN_LIST_FIXED_LEN                                   \
    OFFSETOF(wl_pkt_filter_pattern_list_t, patterns)
#define WL_PKT_FILTER_PATTERN_LISTEL_FIXED_LEN                                 \
    OFFSETOF(wl_pkt_filter_pattern_listel_t, mask_and_data)
#define WL_PKT_FILTER_PATTERN_TIMEOUT_FIXED_LEN                                \
    OFFSETOF(wl_pkt_filter_pattern_timeout_t, mask_and_pattern)

#define WL_APF_INTERNAL_VERSION 1
#define WL_APF_PROGRAM_MAX_SIZE (2 * 1024)
#define WL_APF_PROGRAM_FIXED_LEN OFFSETOF(wl_apf_program_t, instrs)
#define WL_APF_PROGRAM_LEN(apf_program)                                        \
    ((apf_program)->instr_len * sizeof((apf_program)->instrs[0]))
#define WL_APF_PROGRAM_TOTAL_LEN(apf_program)                                  \
    (WL_APF_PROGRAM_FIXED_LEN + WL_APF_PROGRAM_LEN(apf_program))

/** IOVAR "pkt_filter_enable" parameter. */
typedef struct wl_pkt_filter_enable {
    uint32 id;     /**< Unique filter id */
    uint32 enable; /**< Enable/disable bool */
} wl_pkt_filter_enable_t;

/** IOVAR "pkt_filter_list" parameter. Used to retrieve a list of installed
 * filters. */
typedef struct wl_pkt_filter_list {
    uint32 num;     /**< Number of installed packet filters */
    uint8 filter[]; /**< Variable array of packet filters. */
} wl_pkt_filter_list_t;

#define WL_PKT_FILTER_LIST_FIXED_LEN OFFSETOF(wl_pkt_filter_list_t, filter)

/** IOVAR "pkt_filter_stats" parameter. Used to retrieve debug statistics. */
typedef struct wl_pkt_filter_stats {
    uint32 num_pkts_matched;   /**< # filter matches for specified filter id */
    uint32 num_pkts_forwarded; /**< # packets fwded from dongle to host for all
                                  filters */
    uint32 num_pkts_discarded; /**< # packets discarded by dongle for all
                                  filters */
} wl_pkt_filter_stats_t;

/** IOVAR "pkt_filter_ports" parameter.  Configure TCP/UDP port filters. */
typedef struct wl_pkt_filter_ports {
    uint8 version;  /**< Be proper */
    uint8 reserved; /**< Be really proper */
    uint16 count;   /**< Number of ports following */
    /* End of fixed data */
    uint16 ports[1]; /**< Placeholder for ports[<count>] */
} wl_pkt_filter_ports_t;

#define WL_PKT_FILTER_PORTS_FIXED_LEN OFFSETOF(wl_pkt_filter_ports_t, ports)

#define WL_PKT_FILTER_PORTS_VERSION 0
#if defined(WL_PKT_FLTR_EXT) && !defined(WL_PKT_FLTR_EXT_DISABLED)
#define WL_PKT_FILTER_PORTS_MAX 256
#else
#define WL_PKT_FILTER_PORTS_MAX 128
#endif /* WL_PKT_FLTR_EXT && !WL_PKT_FLTR_EXT_DISABLED */

#define RSN_REPLAY_LEN 8
typedef struct _gtkrefresh {
    uint8 KCK[RSN_KCK_LENGTH];
    uint8 KEK[RSN_KEK_LENGTH];
    uint8 ReplayCounter[RSN_REPLAY_LEN];
} gtk_keyinfo_t, *pgtk_keyinfo_t;

/** Sequential Commands ioctl */
typedef struct wl_seq_cmd_ioctl {
    uint32 cmd; /**< common ioctl definition */
    uint32 len; /**< length of user buffer */
} wl_seq_cmd_ioctl_t;

#define WL_SEQ_CMD_ALIGN_BYTES 4

/**
 * These are the set of get IOCTLs that should be allowed when using
 * IOCTL sequence commands. These are issued implicitly by wl.exe each time
 * it is invoked. We never want to buffer these, or else wl.exe will stop
 * working.
 */
#define WL_SEQ_CMDS_GET_IOCTL_FILTER(cmd)                                      \
    (((cmd) == WLC_GET_MAGIC) || ((cmd) == WLC_GET_VERSION) ||                 \
     ((cmd) == WLC_GET_AP) || ((cmd) == WLC_GET_INSTANCE))

#define MAX_PKTENG_SWEEP_STEPS 40
typedef struct wl_pkteng {
    uint32 flags;
    uint32 delay;           /**< Inter-packet delay */
    uint32 nframes;         /**< Number of frames */
    uint32 length;          /**< Packet length */
    uint8 seqno;            /**< Enable/disable sequence no. */
    struct ether_addr dest; /**< Destination address */
    struct ether_addr src;  /**< Source address */
    uint8 sweep_steps;      /**< Number of sweep power */
    uint8 PAD[2];
} wl_pkteng_t;

/* IOVAR pkteng_sweep_counters response structure */
#define WL_PKTENG_SWEEP_COUNTERS_VERSION 1
typedef struct wl_pkteng_sweep_ctrs {
    uint16 version;     /**< Version - 1 */
    uint16 size;        /**< Complete Size including sweep_counters */
    uint16 sweep_steps; /**< Number of steps */
    uint16 PAD;
    uint16 sweep_counter[]; /**< Array of frame counters */
} wl_pkteng_sweep_ctrs_t;

/* IOVAR pkteng_rx_pkt response structure */
#define WL_PKTENG_RX_PKT_VERSION 1
typedef struct wl_pkteng_rx_pkt {
    uint16 version;  /**< Version - 1 */
    uint16 size;     /**< Complete Size including the packet */
    uint8 payload[]; /**< Packet payload */
} wl_pkteng_rx_pkt_t;

#define WL_PKTENG_RU_FILL_VER_1 1u
#define WL_PKTENG_RU_FILL_VER_2 2u
// struct for ru packet engine
typedef struct wl_pkteng_ru_v1 {
    uint16 version;     /* ver is 1 */
    uint16 length;      /* size of complete structure */
    uint8 bw;           /* bandwidth info */
    uint8 ru_alloc_val; /* ru allocation index number */
    uint8 mcs_val;      /* mcs allocated value */
    uint8 nss_val;      /* num of spatial streams */
    uint32
        num_bytes; /* approx num of bytes to calculate other required params */
    uint8 cp_ltf_val;       /* GI and LTF symbol size */
    uint8 he_ltf_symb;      /* num of HE-LTF symbols */
    uint8 stbc;             /* STBC support */
    uint8 coding_val;       /* BCC/LDPC coding support */
    uint8 pe_category;      /* PE duration 0/8/16usecs  */
    uint8 dcm;              /* dual carrier modulation */
    uint8 mumimo_ltfmode;   /* ltf mode */
    uint8 trig_tx;          /* form and transmit the trigger frame */
    uint8 trig_type;        /* type of trigger frame */
    uint8 trig_period;      /* trigger tx periodicity */
    struct ether_addr dest; /* destination address for un-associated mode */
} wl_pkteng_ru_v1_t;

typedef struct wl_pkteng_ru_v2 {
    uint16 version;     /* ver is 1 */
    uint16 length;      /* size of complete structure */
    uint8 bw;           /* bandwidth info */
    uint8 ru_alloc_val; /* ru allocation index number */
    uint8 mcs_val;      /* mcs allocated value */
    uint8 nss_val;      /* num of spatial streams */
    uint32
        num_bytes; /* approx num of bytes to calculate other required params */
    struct ether_addr dest; /* destination address for un-associated mode */
    uint8 cp_ltf_val;       /* GI and LTF symbol size */
    uint8 he_ltf_symb;      /* num of HE-LTF symbols */
    uint8 stbc;             /* STBC support */
    uint8 coding_val;       /* BCC/LDPC coding support */
    uint8 pe_category;      /* PE duration 0/8/16usecs  */
    uint8 dcm;              /* dual carrier modulation */
    uint8 mumimo_ltfmode;   /* ltf mode */
    uint8 trig_tx;          /* form and transmit the trigger frame */
    uint8 trig_type;        /* type of trigger frame */
    uint8 trig_period;      /* trigger tx periodicity */
    uint8 tgt_rssi;         /* target rssi value in encoded format */
    uint8
        pad[3]; /* 3 byte padding to make structure size a multiple of 32bits */
} wl_pkteng_ru_v2_t;

#ifndef WL_PKTENG_RU_VER
/* App uses the latest version - source picks it up from wlc_types.h */
typedef wl_pkteng_ru_v2_t wl_pkteng_ru_fill_t;
#endif // endif

typedef struct wl_trig_frame_info {
    /* Structure versioning and structure length params */
    uint16 version;
    uint16 length;
    /* Below params are the fields related to trigger frame contents */
    /* Common Info Params Figure 9-52d - 11ax Draft 1.1 */
    uint16 lsig_len;
    uint16 trigger_type;
    uint16 cascade_indication;
    uint16 cs_req;
    uint16 bw;
    uint16 cp_ltf_type;
    uint16 mu_mimo_ltf_mode;
    uint16 num_he_ltf_syms;
    uint16 stbc;
    uint16 ldpc_extra_symb;
    uint16 ap_tx_pwr;
    uint16 afactor;
    uint16 pe_disambiguity;
    uint16 spatial_resuse;
    uint16 doppler;
    uint16 he_siga_rsvd;
    uint16 cmn_info_rsvd;
    /* User Info Params Figure 9-52e - 11ax Draft 1.1 */
    uint16 aid12;
    uint16 ru_alloc;
    uint16 coding_type;
    uint16 mcs;
    uint16 dcm;
    uint16 ss_alloc;
    uint16 tgt_rssi;
    uint16 usr_info_rsvd;
} wl_trig_frame_info_t;

/* wl pkteng_stats related definitions */
#define WL_PKTENG_STATS_V1 (1)
#define WL_PKTENG_STATS_V2 (2)

typedef struct wl_pkteng_stats_v1 {
    uint32 lostfrmcnt; /**< RX PER test: no of frames lost (skip seqno) */
    int32 rssi;        /**< RSSI */
    int32 snr;         /**< signal to noise ratio */
    uint16 rxpktcnt[NUM_80211_RATES + 1];
    uint8 rssi_qdb; /**< qdB portion of the computed rssi */
    uint8 version;
} wl_pkteng_stats_v1_t;

typedef struct wl_pkteng_stats_v2 {
    uint32 lostfrmcnt; /**< RX PER test: no of frames lost (skip seqno) */
    int32 rssi;        /**< RSSI */
    int32 snr;         /**< signal to noise ratio */
    uint16 rxpktcnt[NUM_80211_RATES + 1];
    uint8 rssi_qdb; /**< qdB portion of the computed rssi */
    uint8 version;
    uint16 length;
    uint16 pad;
    int32 rssi_per_core[WL_RSSI_ANT_MAX];
    int32 rssi_per_core_qdb[WL_RSSI_ANT_MAX];
} wl_pkteng_stats_v2_t;

#ifndef WL_PKTENG_STATS_TYPEDEF_HAS_ALIAS
typedef wl_pkteng_stats_v1_t wl_pkteng_stats_t;
#endif /* WL_PKTENG_STATS_TYPEDEF_HAS_ALIAS */

typedef struct wl_txcal_params {
    wl_pkteng_t pkteng;
    uint8 gidx_start;
    int8 gidx_step;
    uint8 gidx_stop;
    uint8 PAD;
} wl_txcal_params_t;

typedef struct wl_txcal_gainidx {
    uint8 num_actv_cores;
    uint8 gidx_start_percore[WL_STA_ANT_MAX];
    uint8 gidx_stop_percore[WL_STA_ANT_MAX];
    uint8 PAD[3];
} wl_txcal_gainidx_t;

typedef struct wl_txcal_params_v2 {
    wl_pkteng_t pkteng;
    int8 gidx_step;
    uint8 pwr_start[WL_STA_ANT_MAX];
    uint8 pwr_stop[WL_STA_ANT_MAX];
    uint8 init_start_idx;
    uint8 gidx_start_percore[WL_STA_ANT_MAX];
    uint8 gidx_stop_percore[WL_STA_ANT_MAX];
    uint16 version;
} wl_txcal_params_v2_t;

typedef wl_txcal_params_t wl_txcal_params_v1_t;

typedef struct wl_rssilog_params {
    uint8 enable;
    uint8 rssi_threshold;
    uint8 time_threshold;
    uint8 pad;
} wl_rssilog_params_t;

typedef struct wl_sslpnphy_papd_debug_data {
    uint8 psat_pwr;
    uint8 psat_indx;
    uint8 final_idx;
    uint8 start_idx;
    int32 min_phase;
    int32 voltage;
    int8 temperature;
    uint8 PAD[3];
} wl_sslpnphy_papd_debug_data_t;
typedef struct wl_sslpnphy_debug_data {
    int16 papdcompRe[64];
    int16 papdcompIm[64];
} wl_sslpnphy_debug_data_t;
typedef struct wl_sslpnphy_spbdump_data {
    uint16 tbl_length;
    int16 spbreal[256];
    int16 spbimg[256];
} wl_sslpnphy_spbdump_data_t;
typedef struct wl_sslpnphy_percal_debug_data {
    uint32 cur_idx;
    uint32 tx_drift;
    uint8 prev_cal_idx;
    uint8 PAD[3];
    uint32 percal_ctr;
    int32 nxt_cal_idx;
    uint32 force_1idxcal;
    uint32 onedxacl_req;
    int32 last_cal_volt;
    int8 last_cal_temp;
    uint8 PAD[3];
    uint32 vbat_ripple;
    uint32 exit_route;
    int32 volt_winner;
} wl_sslpnphy_percal_debug_data_t;

typedef enum {
    wowl_pattern_type_bitmap = 0,
    wowl_pattern_type_arp,
    wowl_pattern_type_na
} wowl_pattern_type_t;

typedef struct wl_wowl_pattern {
    uint32 masksize;      /**< Size of the mask in #of bytes */
    uint32 offset;        /**< Pattern byte offset in packet */
    uint32 patternoffset; /**< Offset of start of pattern in the structure */
    uint32 patternsize;   /**< Size of the pattern itself in #of bytes */
    uint32 id;            /**< id */
    uint32 reasonsize;    /**< Size of the wakeup reason code */
    wowl_pattern_type_t type; /**< Type of pattern */
                              /* Mask follows the structure above */
    /* Pattern follows the mask is at 'patternoffset' from the start */
} wl_wowl_pattern_t;

typedef struct wl_wowl_pattern_list {
    uint32 count;
    wl_wowl_pattern_t pattern[1];
} wl_wowl_pattern_list_t;

typedef struct wl_wowl_wakeind {
    uint8 pci_wakeind;    /**< Whether PCI PMECSR PMEStatus bit was set */
    uint32 ucode_wakeind; /**< What wakeup-event indication was set by ucode */
} wl_wowl_wakeind_t;

/** per AC rate control related data structure */
typedef struct wl_txrate_class {
    uint8 init_rate;
    uint8 min_rate;
    uint8 max_rate;
} wl_txrate_class_t;

/** structure for Overlap BSS scan arguments */
typedef struct wl_obss_scan_arg {
    int16 passive_dwell;
    int16 active_dwell;
    int16 bss_widthscan_interval;
    int16 passive_total;
    int16 active_total;
    int16 chanwidth_transition_delay;
    int16 activity_threshold;
} wl_obss_scan_arg_t;

#define WL_OBSS_SCAN_PARAM_LEN sizeof(wl_obss_scan_arg_t)

/** RSSI event notification configuration. */
typedef struct wl_rssi_event {
    uint32 rate_limit_msec; /**< # of events posted to application will be
                             * limited to one per specified period (0 to disable
                             * rate limit).
                             */
    uint8 num_rssi_levels;  /**< Number of entries in rssi_levels[] below */
    int8 rssi_levels[MAX_RSSI_LEVELS]; /**< Variable number of RSSI levels. An
                                        * event will be posted each time the
                                        * RSSI of received beacons/packets
                                        * crosses a level.
                                        */
    int8 pad[3];
} wl_rssi_event_t;

#define RSSI_MONITOR_VERSION 1
#define RSSI_MONITOR_STOP (1 << 0)
typedef struct wl_rssi_monitor_cfg {
    uint8 version;
    uint8 flags;
    int8 max_rssi;
    int8 min_rssi;
} wl_rssi_monitor_cfg_t;

typedef struct wl_rssi_monitor_evt {
    uint8 version;
    int8 cur_rssi;
    uint16 pad;
} wl_rssi_monitor_evt_t;

/* CCA based channel quality event configuration (ID values for both config and
 * report) */
#define WL_CHAN_QUAL_CCA 0
#define WL_CHAN_QUAL_NF 1
#define WL_CHAN_QUAL_NF_LTE 2
#define WL_CHAN_QUAL_TOTAL                                                     \
    3 /* The total IDs supported in both config and report */
/* Additional channel quality event support in report only (>= 0x100)
 * Notice that uint8 is used in configuration struct wl_chan_qual_metric_t, but
 * uint16 is used for report in struct cca_chan_qual_event_t. So the ID values
 * beyond 8-bit are used for reporting purpose only.
 */
#define WL_CHAN_QUAL_FULL_CCA                                                  \
    (0x100u | WL_CHAN_QUAL_CCA) /* CCA: ibss vs. obss */
#define WL_CHAN_QUAL_FULLPM_CCA                                                \
    (0x200u | WL_CHAN_QUAL_CCA) /* CCA: me vs. notme, PM vs. !PM */

#define MAX_CHAN_QUAL_LEVELS 8

typedef struct wl_chan_qual_metric {
    uint8 id;         /**< metric ID */
    uint8 num_levels; /**< Number of entries in rssi_levels[] below */
    uint16 flags;
    int16 htol[MAX_CHAN_QUAL_LEVELS]; /**< threshold level array: hi-to-lo */
    int16 ltoh[MAX_CHAN_QUAL_LEVELS]; /**< threshold level array: lo-to-hi */
} wl_chan_qual_metric_t;

typedef struct wl_chan_qual_event {
    uint32 rate_limit_msec; /**< # of events posted to application will be
                             * limited to one per specified period (0 to disable
                             * rate limit).
                             */
    uint16 flags;
    uint16 num_metrics;
    wl_chan_qual_metric_t metric[WL_CHAN_QUAL_TOTAL]; /**< metric array */
} wl_chan_qual_event_t;
typedef struct wl_action_obss_coex_req {
    uint8 info;
    uint8 num;
    uint8 ch_list[1];
} wl_action_obss_coex_req_t;

/** IOVar parameter block for small MAC address array with type indicator */
#define WL_IOV_MAC_PARAM_LEN 4

/** This value is hardcoded to be 16 and MUST match PKTQ_MAX_PREC value defined
 * elsewhere */
#define WL_IOV_PKTQ_LOG_PRECS 16

#include <packed_section_start.h>
typedef BWL_PRE_PACKED_STRUCT struct {
    uint32 num_addrs;
    uint8 addr_type[WL_IOV_MAC_PARAM_LEN];
    struct ether_addr ea[WL_IOV_MAC_PARAM_LEN];
} BWL_POST_PACKED_STRUCT wl_iov_mac_params_t;
#include <packed_section_end.h>

/** This is extra info that follows wl_iov_mac_params_t */
typedef struct {
    uint32 addr_info[WL_IOV_MAC_PARAM_LEN];
} wl_iov_mac_extra_params_t;

/** Combined structure */
typedef struct {
    wl_iov_mac_params_t params;
    wl_iov_mac_extra_params_t extra_params;
} wl_iov_mac_full_params_t;

/** Parameter block for PKTQ_LOG statistics */
/* NOTE: this structure cannot change! It is exported to wlu as a binary format
 * A new format revision number must be created if the interface changes
 * The latest is v05; previous v01...v03 are no longer supported, v04 has
 * common base with v05
 */
#define PKTQ_LOG_COUNTERS_V4                                                   \
    /* packets requested to be stored */                                       \
    uint32 requested;                                                          \
    /* packets stored */                                                       \
    uint32 stored;                                                             \
    /* packets saved, because a lowest priority queue has given away one       \
     * packet */                                                               \
    uint32 saved;                                                              \
    /* packets saved, because an older packet from the same queue has been     \
     * dropped */                                                              \
    uint32 selfsaved;                                                          \
    /* packets dropped, because pktq is full with higher precedence packets */ \
    uint32 full_dropped;                                                       \
    /* packets dropped because pktq per that precedence is full */             \
    uint32 dropped;                                                            \
    /* packets dropped, in order to save one from a queue of a highest         \
     * priority */                                                             \
    uint32 sacrificed;                                                         \
    /* packets droped because of hardware/transmission error */                \
    uint32 busy;                                                               \
    /* packets re-sent because they were not received */                       \
    uint32 retry;                                                              \
    /* packets retried again (ps pretend) prior to moving power save mode */   \
    uint32 ps_retry;                                                           \
    /* suppressed packet count */                                              \
    uint32 suppress;                                                           \
    /* packets finally dropped after retry limit */                            \
    uint32 retry_drop;                                                         \
    /* the high-water mark of the queue capacity for packets - goes to zero as \
     * queue fills */                                                          \
    uint32 max_avail;                                                          \
    /* the high-water mark of the queue utilisation for packets - ('inverse'   \
     * of max_avail) */                                                        \
    uint32 max_used;                                                           \
    /* the maximum capacity of the queue */                                    \
    uint32 queue_capacity;                                                     \
    /* count of rts attempts that failed to receive cts */                     \
    uint32 rtsfail;                                                            \
    /* count of packets sent (acked) successfully */                           \
    uint32 acked;                                                              \
    /* running total of phy rate of packets sent successfully */               \
    uint32 txrate_succ;                                                        \
    /* running total of phy 'main' rate */                                     \
    uint32 txrate_main;                                                        \
    /* actual data transferred successfully */                                 \
    uint32 throughput;                                                         \
    /* time difference since last pktq_stats */                                \
    uint32 time_delta;

typedef struct {
    PKTQ_LOG_COUNTERS_V4
} pktq_log_counters_v04_t;

/** v5 is the same as V4 with extra parameter */
typedef struct {
    PKTQ_LOG_COUNTERS_V4
    /** cumulative time to transmit */
    uint32 airtime;
} pktq_log_counters_v05_t;

typedef struct {
    uint8 num_prec[WL_IOV_MAC_PARAM_LEN];
    pktq_log_counters_v04_t counters[WL_IOV_MAC_PARAM_LEN]
                                    [WL_IOV_PKTQ_LOG_PRECS];
    uint32 counter_info[WL_IOV_MAC_PARAM_LEN];
    uint32 pspretend_time_delta[WL_IOV_MAC_PARAM_LEN];
    char headings[];
} pktq_log_format_v04_t;

typedef struct {
    uint8 num_prec[WL_IOV_MAC_PARAM_LEN];
    pktq_log_counters_v05_t counters[WL_IOV_MAC_PARAM_LEN]
                                    [WL_IOV_PKTQ_LOG_PRECS];
    uint32 counter_info[WL_IOV_MAC_PARAM_LEN];
    uint32 pspretend_time_delta[WL_IOV_MAC_PARAM_LEN];
    char headings[];
} pktq_log_format_v05_t;

typedef struct {
    uint32 version;
    wl_iov_mac_params_t params;
    union {
        pktq_log_format_v04_t v04;
        pktq_log_format_v05_t v05;
    } pktq_log;
} wl_iov_pktq_log_t;

/* PKTQ_LOG_AUTO, PKTQ_LOG_DEF_PREC flags introduced in v05, they are ignored by
 * v04 */
#define PKTQ_LOG_AUTO (1 << 31)
#define PKTQ_LOG_DEF_PREC (1 << 30)

typedef struct wl_pfn_macaddr_cfg_0 {
    uint8 version;
    uint8 reserved;
    struct ether_addr macaddr;
} wl_pfn_macaddr_cfg_0_t;
#define LEGACY1_WL_PFN_MACADDR_CFG_VER 0
#define WL_PFN_MAC_OUI_ONLY_MASK 1
#define WL_PFN_SET_MAC_UNASSOC_MASK 2
#define WL_PFN_RESTRICT_LA_MAC_MASK 4
#define WL_PFN_MACADDR_FLAG_MASK 0x7
/** To configure pfn_macaddr */
typedef struct wl_pfn_macaddr_cfg {
    uint8 version;
    uint8 flags;
    struct ether_addr macaddr;
} wl_pfn_macaddr_cfg_t;
#define WL_PFN_MACADDR_CFG_VER 1

/*
 * SCB_BS_DATA iovar definitions start.
 */
#define SCB_BS_DATA_STRUCT_VERSION 1

/** The actual counters maintained for each station */
typedef struct {
    /* The following counters are a subset of what pktq_stats provides per
     * precedence. */
    uint32 retry;       /**< packets re-sent because they were not received */
    uint32 retry_drop;  /**< packets finally dropped after retry limit */
    uint32 rtsfail;     /**< count of rts attempts that failed to receive cts */
    uint32 acked;       /**< count of packets sent (acked) successfully */
    uint32 txrate_succ; /**< running total of phy rate of packets sent
                           successfully */
    uint32 txrate_main; /**< running total of phy 'main' rate */
    uint32 throughput;  /**< actual data transferred successfully */
    uint32 time_delta;  /**< time difference since last pktq_stats */
    uint32 airtime;     /**< cumulative total medium access delay in useconds */
} iov_bs_data_counters_t;

/** The structure for individual station information. */
#include <packed_section_start.h>
typedef BWL_PRE_PACKED_STRUCT struct {
    struct ether_addr station_address; /**< The station MAC address */
    uint16 station_flags; /**< Bit mask of flags, for future use. */
    iov_bs_data_counters_t station_counters; /**< The actual counter values */
} BWL_POST_PACKED_STRUCT iov_bs_data_record_t;
#include <packed_section_end.h>

#include <packed_section_start.h>
typedef BWL_PRE_PACKED_STRUCT struct {
    uint16 structure_version; /**< Structure version number (for wl/wlu
                                 matching) */
    uint16 structure_count;   /**< Number of iov_bs_data_record_t records
                                 following */
    iov_bs_data_record_t
        structure_record[1]; /**< 0 - structure_count records */
} BWL_POST_PACKED_STRUCT iov_bs_data_struct_t;
#include <packed_section_end.h>

/* Bitmask of options that can be passed in to the iovar. */
enum {
    SCB_BS_DATA_FLAG_NO_RESET =
        (1 << 0) /**< Do not clear the counters after reading */
};
/*
 * SCB_BS_DATA iovar definitions end.
 */

typedef struct wlc_extlog_cfg {
    int32 max_number;
    uint16 module; /**< bitmap */
    uint8 level;
    uint8 flag;
    uint16 version;
    uint16 PAD;
} wlc_extlog_cfg_t;

typedef struct log_record {
    uint32 time;
    uint16 module;
    uint16 id;
    uint8 level;
    uint8 sub_unit;
    uint8 seq_num;
    uint8 pad;
    int32 arg;
    char str[MAX_ARGSTR_LEN];
    char PAD[4 - MAX_ARGSTR_LEN % 4];
} log_record_t;

typedef struct wlc_extlog_req {
    uint32 from_last;
    uint32 num;
} wlc_extlog_req_t;

typedef struct wlc_extlog_results {
    uint16 version;
    uint16 record_len;
    uint32 num;
    log_record_t logs[1];
} wlc_extlog_results_t;

typedef struct log_idstr {
    uint16 id;
    uint16 flag;
    uint8 arg_type;
    const char *fmt_str;
} log_idstr_t;

#define FMTSTRF_USER 1

/* flat ID definitions
 * New definitions HAVE TO BE ADDED at the end of the table. Otherwise, it will
 * affect backward compatibility with pre-existing apps
 */
typedef enum {
    FMTSTR_DRIVER_UP_ID = 0,
    FMTSTR_DRIVER_DOWN_ID = 1,
    FMTSTR_SUSPEND_MAC_FAIL_ID = 2,
    FMTSTR_NO_PROGRESS_ID = 3,
    FMTSTR_RFDISABLE_ID = 4,
    FMTSTR_REG_PRINT_ID = 5,
    FMTSTR_EXPTIME_ID = 6,
    FMTSTR_JOIN_START_ID = 7,
    FMTSTR_JOIN_COMPLETE_ID = 8,
    FMTSTR_NO_NETWORKS_ID = 9,
    FMTSTR_SECURITY_MISMATCH_ID = 10,
    FMTSTR_RATE_MISMATCH_ID = 11,
    FMTSTR_AP_PRUNED_ID = 12,
    FMTSTR_KEY_INSERTED_ID = 13,
    FMTSTR_DEAUTH_ID = 14,
    FMTSTR_DISASSOC_ID = 15,
    FMTSTR_LINK_UP_ID = 16,
    FMTSTR_LINK_DOWN_ID = 17,
    FMTSTR_RADIO_HW_OFF_ID = 18,
    FMTSTR_RADIO_HW_ON_ID = 19,
    FMTSTR_EVENT_DESC_ID = 20,
    FMTSTR_PNP_SET_POWER_ID = 21,
    FMTSTR_RADIO_SW_OFF_ID = 22,
    FMTSTR_RADIO_SW_ON_ID = 23,
    FMTSTR_PWD_MISMATCH_ID = 24,
    FMTSTR_FATAL_ERROR_ID = 25,
    FMTSTR_AUTH_FAIL_ID = 26,
    FMTSTR_ASSOC_FAIL_ID = 27,
    FMTSTR_IBSS_FAIL_ID = 28,
    FMTSTR_EXTAP_FAIL_ID = 29,
    FMTSTR_MAX_ID
} log_fmtstr_id_t;

/** 11k Neighbor Report element (unversioned, deprecated) */
typedef struct nbr_element {
    uint8 id;
    uint8 len;
    struct ether_addr bssid;
    uint32 bssid_info;
    uint8 reg;
    uint8 channel;
    uint8 phytype;
    uint8 pad;
} nbr_element_t;
#define NBR_ADD_STATIC 0
#define NBR_ADD_DYNAMIC 1

#define WL_RRM_NBR_RPT_VER 1

#define WL_NBR_RPT_FLAG_BSS_PREF_FROM_AP 0x01
/** 11k Neighbor Report element */
typedef struct nbr_rpt_elem {
    uint8 version;
    uint8 id;
    uint8 len;
    uint8 pad;
    struct ether_addr bssid;
    uint8 pad_1[2];
    uint32 bssid_info;
    uint8 reg;
    uint8 channel;
    uint8 phytype;
    uint8 addtype; /* static for manual add or dynamic if auto-learning of
                      neighbors */
    wlc_ssid_t ssid;
    chanspec_t chanspec;
    uint8 bss_trans_preference;
    uint8 flags;
} nbr_rpt_elem_t;

typedef enum event_msgs_ext_command {
    EVENTMSGS_NONE = 0,
    EVENTMSGS_SET_BIT = 1,
    EVENTMSGS_RESET_BIT = 2,
    EVENTMSGS_SET_MASK = 3
} event_msgs_ext_command_t;

#define EVENTMSGS_VER 1
#define EVENTMSGS_EXT_STRUCT_SIZE OFFSETOF(eventmsgs_ext_t, mask[0])

/* len-	for SET it would be mask size from the application to the firmware */
/*		for GET it would be actual firmware mask size */
/* maxgetsize -	is only used for GET. indicate max mask size that the */
/*				application can read from the firmware */
typedef struct eventmsgs_ext {
    uint8 ver;
    uint8 command;
    uint8 len;
    uint8 maxgetsize;
    uint8 mask[1];
} eventmsgs_ext_t;

#include <packed_section_start.h>
typedef BWL_PRE_PACKED_STRUCT struct pcie_bus_tput_params {
    /** no of host dma descriptors programmed by the firmware before a commit */
    uint16 max_dma_descriptors;

    uint16 host_buf_len;     /**< length of host buffer */
    dmaaddr_t host_buf_addr; /**< physical address for bus_throughput_buf */
} BWL_POST_PACKED_STRUCT pcie_bus_tput_params_t;
#include <packed_section_end.h>

typedef struct pcie_bus_tput_stats {
    uint16 time_taken; /**< no of secs the test is run */
    uint16
        nbytes_per_descriptor; /**< no of bytes of data dma ed per descriptor */

    /** no of desciptors for which dma is sucessfully completed within the test
     * time */
    uint32 count;
} pcie_bus_tput_stats_t;

#define HOST_WAKEUP_DATA_VER 1
#include <packed_section_start.h>
/* Bus interface host wakeup data */
typedef BWL_PRE_PACKED_STRUCT struct wl_host_wakeup_data {
    uint16 ver;
    uint16 len;
    uchar data[1]; /* wakeup data */
} BWL_POST_PACKED_STRUCT wl_host_wakeup_data_t;
#include <packed_section_end.h>

#define HOST_WAKEUP_DATA_VER_2 2
#include <packed_section_start.h>
/* Bus interface host wakeup data */
typedef BWL_PRE_PACKED_STRUCT struct wl_host_wakeup_data_v2 {
    uint16 ver;
    uint16 len;
    uint32 gpio_toggle_time; /* gpio toggle time in ms */
    uchar data[1];           /* wakeup data */
} BWL_POST_PACKED_STRUCT wl_host_wakeup_data_v2_t;
#include <packed_section_end.h>

typedef struct keepalives_max_idle {
    uint16 keepalive_count; /**< nmbr of keepalives per bss_max_idle period */
    uint8 mkeepalive_index; /**< mkeepalive_index for keepalive frame to be used
                             */
    uint8 PAD;              /**< to align next field */
    uint16 max_interval;    /**< seconds */
} keepalives_max_idle_t;

#define PM_IGNORE_BCMC_PROXY_ARP (1 << 0)
#define PM_IGNORE_BCMC_ALL_DMS_ACCEPTED (1 << 1)

/* ##### HMAP section ##### */
#define PCIE_MAX_HMAP_WINDOWS 8
#define PCIE_HMAPTEST_VERSION 2
#define HMAPTEST_INVALID_OFFSET 0xFFFFFFFFu
#define HMAPTEST_DEFAULT_WRITE_PATTERN 0xBABECAFEu
#define HMAPTEST_ACCESS_ARM 0
#define HMAPTEST_ACCESS_M2M 1
#define HMAPTEST_ACCESS_D11 2
#define HMAPTEST_ACCESS_NONE 3

typedef struct pcie_hmaptest {
    uint16 version; /* Version */
    uint16 length;  /* Length of entire structure */
    uint32 xfer_len;
    uint32 accesstype;
    uint32 is_write;
    uint32 is_invalid;
    uint32 host_addr_hi;
    uint32 host_addr_lo;
    uint32 host_offset;
    uint32 value; /* 4 byte value to be filled in case of write access test */
    uint32
        delay; /* wait time  in seconds before initiating access from dongle */
} pcie_hmaptest_t;

/* HMAP window register set */
typedef struct hmapwindow {
    uint32 baseaddr_lo;  /* BaseAddrLower */
    uint32 baseaddr_hi;  /* BaseAddrUpper */
    uint32 windowlength; /* Window Length */
} hmapwindow_t;

#define PCIE_HMAP_VERSION 1
typedef struct pcie_hmap {
    uint16 version;               /**< Version */
    uint16 length;                /**< Length of entire structure */
    uint32 enable;                /**< status of HMAP enabled/disabled */
    uint32 nwindows;              /* no. of HMAP windows enabled */
    uint32 window_config;         /* HMAP window_config register */
    uint32 hmap_violationaddr_lo; /* violating address lo */
    uint32 hmap_violationaddr_hi; /* violating addr hi */
    uint32 hmap_violation_info;   /* violation info */
    hmapwindow_t hwindows[];      /* Multiple hwindows */
} pcie_hmap_t;

/* ##### Power Stats section ##### */

#define WL_PWRSTATS_VERSION 2

/** Input structure for pwrstats IOVAR */
typedef struct wl_pwrstats_query {
    uint16 length;  /**< Number of entries in type array. */
    uint16 type[1]; /**< Types (tags) to retrieve.
                     * Length 0 (no types) means get all.
                     */
} wl_pwrstats_query_t;

/** This structure is for version 2; version 1 will be deprecated in by FW */
#include <packed_section_start.h>
typedef BWL_PRE_PACKED_STRUCT struct wl_pwrstats {
    uint16 version; /**< Version = 2 is TLV format */
    uint16 length;  /**< Length of entire structure */
    uint8 data[1];  /**< TLV data, a series of structures,
                     * each starting with type and length.
                     *
                     * Padded as necessary so each section
                     * starts on a 4-byte boundary.
                     *
                     * Both type and len are uint16, but the
                     * upper nibble of length is reserved so
                     * valid len values are 0-4095.
                     */
} BWL_POST_PACKED_STRUCT wl_pwrstats_t;
#include <packed_section_end.h>
#define WL_PWR_STATS_HDRLEN OFFSETOF(wl_pwrstats_t, data)

/* Bits for wake reasons */
#define WLC_PMD_WAKE_SET 0x1
#define WLC_PMD_PM_AWAKE_BCN 0x2
/* BIT:3 is no longer being used */
#define WLC_PMD_SCAN_IN_PROGRESS 0x8
#define WLC_PMD_RM_IN_PROGRESS 0x10
#define WLC_PMD_AS_IN_PROGRESS 0x20
#define WLC_PMD_PM_PEND 0x40
#define WLC_PMD_PS_POLL 0x80
#define WLC_PMD_CHK_UNALIGN_TBTT 0x100
#define WLC_PMD_APSD_STA_UP 0x200
#define WLC_PMD_TX_PEND_WAR 0x400 /* obsolete, can be reused */
#define WLC_PMD_NAN_AWAKE 0x400   /* Reusing for NAN */
#define WLC_PMD_GPTIMER_STAY_AWAKE 0x800
#define WLC_PMD_PM2_RADIO_SOFF_PEND 0x2000
#define WLC_PMD_NON_PRIM_STA_UP 0x4000
#define WLC_PMD_AP_UP 0x8000

typedef struct wlc_pm_debug {
    uint32 timestamp; /**< timestamp in millisecond */
    uint32 reason;    /**< reason(s) for staying awake */
} wlc_pm_debug_t;

/** WL_PWRSTATS_TYPE_PM_AWAKE1 structures (for 6.25 firmware) */
#define WLC_STA_AWAKE_STATES_MAX_V1 30
#define WLC_PMD_EVENT_MAX_V1 32
/** Data sent as part of pwrstats IOVAR (and EXCESS_PM_WAKE event) */
#include <packed_section_start.h>
typedef BWL_PRE_PACKED_STRUCT struct pm_awake_data_v1 {
    uint32 curr_time; /**< ms */
    uint32 hw_macc;   /**< HW maccontrol */
    uint32 sw_macc;   /**< SW maccontrol */
    uint32 pm_dur;    /**< Total sleep time in PM, msecs */
    uint32 mpc_dur;   /**< Total sleep time in MPC, msecs */

    /* int32 drifts = remote - local; +ve drift => local-clk slow */
    int32 last_drift; /**< Most recent TSF drift from beacon */
    int32 min_drift;  /**< Min TSF drift from beacon in magnitude */
    int32 max_drift;  /**< Max TSF drift from beacon in magnitude */

    uint32 avg_drift; /**< Avg TSF drift from beacon */

    /* Wake history tracking */
    uint8 pmwake_idx; /**< for stepping through pm_state */
    wlc_pm_debug_t
        pm_state[WLC_STA_AWAKE_STATES_MAX_V1]; /**< timestamped wake bits */
    uint32 pmd_event_wake_dur[WLC_PMD_EVENT_MAX_V1]; /**< cumulative usecs per
                                                        wake reason */
    uint32 drift_cnt; /**< Count of drift readings over which avg_drift was
                         computed */
} BWL_POST_PACKED_STRUCT pm_awake_data_v1_t;
#include <packed_section_end.h>

#include <packed_section_start.h>
typedef BWL_PRE_PACKED_STRUCT struct wl_pwr_pm_awake_stats_v1 {
    uint16 type; /**< WL_PWRSTATS_TYPE_PM_AWAKE */
    uint16 len;  /**< Up to 4K-1, top 4 bits are reserved */

    pm_awake_data_v1_t awake_data;
    uint32 frts_time;    /**< Cumulative ms spent in frts since driver load */
    uint32 frts_end_cnt; /**< No of times frts ended since driver load */
} BWL_POST_PACKED_STRUCT wl_pwr_pm_awake_stats_v1_t;
#include <packed_section_end.h>

/** WL_PWRSTATS_TYPE_PM_AWAKE2 structures. Data sent as part of pwrstats IOVAR
 */
typedef struct pm_awake_data_v2 {
    uint32 curr_time; /**< ms */
    uint32 hw_macc;   /**< HW maccontrol */
    uint32 sw_macc;   /**< SW maccontrol */
    uint32 pm_dur;    /**< Total sleep time in PM, msecs */
    uint32 mpc_dur;   /**< Total sleep time in MPC, msecs */

    /* int32 drifts = remote - local; +ve drift => local-clk slow */
    int32 last_drift; /**< Most recent TSF drift from beacon */
    int32 min_drift;  /**< Min TSF drift from beacon in magnitude */
    int32 max_drift;  /**< Max TSF drift from beacon in magnitude */

    uint32 avg_drift; /**< Avg TSF drift from beacon */

    /* Wake history tracking */

    /* pmstate array (type wlc_pm_debug_t) start offset */
    uint16 pm_state_offset;
    /** pmstate number of array entries */
    uint16 pm_state_len;

    /** array (type uint32) start offset */
    uint16 pmd_event_wake_dur_offset;
    /** pmd_event_wake_dur number of array entries */
    uint16 pmd_event_wake_dur_len;

    uint32 drift_cnt; /**< Count of drift readings over which avg_drift was
                         computed */
    uint8 pmwake_idx; /**< for stepping through pm_state */
    uint8
        flags; /**< bit0: 1-sleep, 0- wake. bit1: 0-bit0 invlid, 1-bit0 valid */
    uint8 pad[2];
    uint32 frts_time;    /**< Cumulative ms spent in frts since driver load */
    uint32 frts_end_cnt; /**< No of times frts ended since driver load */
} pm_awake_data_v2_t;

typedef struct wl_pwr_pm_awake_stats_v2 {
    uint16 type; /**< WL_PWRSTATS_TYPE_PM_AWAKE */
    uint16 len;  /**< Up to 4K-1, top 4 bits are reserved */

    pm_awake_data_v2_t awake_data;
} wl_pwr_pm_awake_stats_v2_t;

/* bit0: 1-sleep, 0- wake. bit1: 0-bit0 invlid, 1-bit0 valid */
#define WL_PWR_PM_AWAKE_STATS_WAKE 0x02
#define WL_PWR_PM_AWAKE_STATS_ASLEEP 0x03
#define WL_PWR_PM_AWAKE_STATS_WAKE_MASK 0x03

/* WL_PWRSTATS_TYPE_PM_AWAKE Version 2 structures taken from 4324/43342 */
/* These structures are only to be used with 4324/43342 devices */

#define WL_STA_AWAKE_STATES_MAX_V2 30
#define WL_PMD_EVENT_MAX_V2 32
#define MAX_P2P_BSS_DTIM_PRD 4

#include <packed_section_start.h>
typedef BWL_PRE_PACKED_STRUCT struct ucode_dbg_v2 {
    uint32 macctrl;
    uint16 m_p2p_hps;
    uint16 m_p2p_bss_dtim_prd[MAX_P2P_BSS_DTIM_PRD];
    uint32 psmdebug[20];
    uint32 phydebug[20];
    uint32 psm_brc;
    uint32 ifsstat;
} BWL_POST_PACKED_STRUCT ucode_dbg_v2_t;
#include <packed_section_end.h>

#include <packed_section_start.h>
typedef BWL_PRE_PACKED_STRUCT struct pmalert_awake_data_v2 {
    uint32 curr_time; /* ms */
    uint32 hw_macc;   /* HW maccontrol */
    uint32 sw_macc;   /* SW maccontrol */
    uint32 pm_dur;    /* Total sleep time in PM, msecs */
    uint32 mpc_dur;   /* Total sleep time in MPC, msecs */

    /* int32 drifts = remote - local; +ve drift => local-clk slow */
    int32 last_drift; /* Most recent TSF drift from beacon */
    int32 min_drift;  /* Min TSF drift from beacon in magnitude */
    int32 max_drift;  /* Max TSF drift from beacon in magnitude */

    uint32 avg_drift; /* Avg TSF drift from beacon */

    /* Wake history tracking */
    uint8 pmwake_idx; /* for stepping through pm_state */
    wlc_pm_debug_t
        pm_state[WL_STA_AWAKE_STATES_MAX_V2];       /* timestamped wake bits */
    uint32 pmd_event_wake_dur[WL_PMD_EVENT_MAX_V2]; /* cumulative usecs per wake
                                                       reason */
    uint32 drift_cnt; /* Count of drift readings over which avg_drift was
                         computed */
    uint32 start_event_dur[WL_PMD_EVENT_MAX_V2]; /* start event-duration */
    ucode_dbg_v2_t ud;
    uint32 frts_time;    /* Cumulative ms spent in frts since driver load */
    uint32 frts_end_cnt; /* No of times frts ended since driver load */
} BWL_POST_PACKED_STRUCT pmalert_awake_data_v2_t;
#include <packed_section_end.h>

#include <packed_section_start.h>
typedef BWL_PRE_PACKED_STRUCT struct pm_alert_data_v2 {
    uint32 version;
    uint32 length;  /* Length of entire structure */
    uint32 reasons; /* reason(s) for pm_alert */
    /* Following fields are present only for reasons
     * PM_DUR_EXCEEDED, MPC_DUR_EXCEEDED & CONST_AWAKE_DUR_EXCEEDED
     */
    uint32 prev_stats_time; /* msecs */
    uint32 prev_pm_dur;     /* msecs */
    uint32 prev_mpc_dur;    /* msecs */
    pmalert_awake_data_v2_t awake_data;
} BWL_POST_PACKED_STRUCT pm_alert_data_v2_t;
#include <packed_section_end.h>

#include <packed_section_start.h>
typedef BWL_PRE_PACKED_STRUCT struct wl_pwr_pm_awake_status_v2 {
    uint16 type; /* WL_PWRSTATS_TYPE_PM_AWAKE */
    uint16 len;  /* Up to 4K-1, top 4 bits are reserved */

    pmalert_awake_data_v2_t awake_data;
    uint32 frts_time;    /* Cumulative ms spent in frts since driver load */
    uint32 frts_end_cnt; /* No of times frts ended since driver load */
} BWL_POST_PACKED_STRUCT wl_pwr_pm_awake_status_v2_t;
#include <packed_section_end.h>

/* Below are latest definitions from PHO25178RC100_BRANCH_6_50 */
/* wl_pwr_pm_awake_stats_v1_t is used for WL_PWRSTATS_TYPE_PM_AWAKE */
/* Use regs from d11.h instead of raw addresses for */
/* (at least) the chip independent registers */
typedef struct ucode_dbg_ext {
    uint32 x120;
    uint32 x124;
    uint32 x154;
    uint32 x158;
    uint32 x15c;
    uint32 x180;
    uint32 x184;
    uint32 x188;
    uint32 x18c;
    uint32 x1a0;
    uint32 x1a8;
    uint32 x1e0;
    uint32 scr_x14;
    uint32 scr_x2b;
    uint32 scr_x2c;
    uint32 scr_x2d;
    uint32 scr_x2e;

    uint16 x40a;
    uint16 x480;
    uint16 x490;
    uint16 x492;
    uint16 x4d8;
    uint16 x4b8;
    uint16 x4ba;
    uint16 x4bc;
    uint16 x4be;
    uint16 x500;
    uint16 x50e;
    uint16 x522;
    uint16 x546;
    uint16 x578;
    uint16 x602;
    uint16 x646;
    uint16 x648;
    uint16 x666;
    uint16 x670;
    uint16 x690;
    uint16 x692;
    uint16 x6a0;
    uint16 x6a2;
    uint16 x6a4;
    uint16 x6b2;
    uint16 x7c0;

    uint16 shm_x20;
    uint16 shm_x4a;
    uint16 shm_x5e;
    uint16 shm_x5f;
    uint16 shm_xaab;
    uint16 shm_x74a;
    uint16 shm_x74b;
    uint16 shm_x74c;
    uint16 shm_x74e;
    uint16 shm_x756;
    uint16 shm_x75b;
    uint16 shm_x7b9;
    uint16 shm_x7d4;

    uint16 shm_P2P_HPS;
    uint16 shm_P2P_intr[16];
    uint16 shm_P2P_perbss[48];
} ucode_dbg_ext_t;

#include <packed_section_start.h>
typedef BWL_PRE_PACKED_STRUCT struct pm_alert_data_v1 {
    uint32 version;
    uint32 length;  /**< Length of entire structure */
    uint32 reasons; /**< reason(s) for pm_alert */
    /* Following fields are present only for reasons
     * PM_DUR_EXCEEDED, MPC_DUR_EXCEEDED & CONST_AWAKE_DUR_EXCEEDED
     */
    uint32 prev_stats_time; /**< msecs */
    uint32 prev_pm_dur;     /**< msecs */
    uint32 prev_mpc_dur;    /**< msecs */
    pm_awake_data_v1_t awake_data;
    uint32 start_event_dur[WLC_PMD_EVENT_MAX_V1]; /**< start event-duration */
    ucode_dbg_v2_t ud;
    uint32 frts_time;    /**< Cumulative ms spent in frts since driver load */
    uint32 frts_end_cnt; /**< No of times frts ended since driver load */
    ucode_dbg_ext_t ud_ext;
    uint32 prev_frts_dur; /**< ms */
} BWL_POST_PACKED_STRUCT pm_alert_data_v1_t;
#include <packed_section_end.h>

/* End of 43342/4324 v2 structure definitions */

/* Original bus structure is for HSIC */

typedef struct bus_metrics {
    uint32 suspend_ct;     /**< suspend count */
    uint32 resume_ct;      /**< resume count */
    uint32 disconnect_ct;  /**< disconnect count */
    uint32 reconnect_ct;   /**< reconnect count */
    uint32 active_dur;     /**< msecs in bus, usecs for user */
    uint32 suspend_dur;    /**< msecs in bus, usecs for user */
    uint32 disconnect_dur; /**< msecs in bus, usecs for user */
} bus_metrics_t;

/** Bus interface info for USB/HSIC */
#include <packed_section_start.h>
typedef BWL_PRE_PACKED_STRUCT struct wl_pwr_usb_hsic_stats {
    uint16 type; /**< WL_PWRSTATS_TYPE_USB_HSIC */
    uint16 len;  /**< Up to 4K-1, top 4 bits are reserved */

    bus_metrics_t hsic; /**< stats from hsic bus driver */
} BWL_POST_PACKED_STRUCT wl_pwr_usb_hsic_stats_t;
#include <packed_section_end.h>

/* PCIe Event counter tlv IDs */
enum pcie_cnt_xtlv_id {
    PCIE_CNT_XTLV_METRICS = 0x1, /**< PCIe Bus Metrics */
    PCIE_CNT_XTLV_BUS_CNT = 0x2  /**< PCIe Bus counters */
};

typedef struct pcie_bus_metrics {
    uint32 d3_suspend_ct;     /**< suspend count */
    uint32 d0_resume_ct;      /**< resume count */
    uint32 perst_assrt_ct;    /**< PERST# assert count */
    uint32 perst_deassrt_ct;  /**< PERST# de-assert count */
    uint32 active_dur;        /**< msecs */
    uint32 d3_suspend_dur;    /**< msecs */
    uint32 perst_dur;         /**< msecs */
    uint32 l0_cnt;            /**< L0 entry count */
    uint32 l0_usecs;          /**< L0 duration in usecs */
    uint32 l1_cnt;            /**< L1 entry count */
    uint32 l1_usecs;          /**< L1 duration in usecs */
    uint32 l1_1_cnt;          /**< L1_1ss entry count */
    uint32 l1_1_usecs;        /**< L1_1ss duration in usecs */
    uint32 l1_2_cnt;          /**< L1_2ss entry count */
    uint32 l1_2_usecs;        /**< L1_2ss duration in usecs */
    uint32 l2_cnt;            /**< L2 entry count */
    uint32 l2_usecs;          /**< L2 duration in usecs */
    uint32 timestamp;         /**< Timestamp on when stats are collected */
    uint32 num_h2d_doorbell;  /**< # of doorbell interrupts - h2d */
    uint32 num_d2h_doorbell;  /**< # of doorbell interrupts - d2h */
    uint32 num_submissions;   /**< # of submissions */
    uint32 num_completions;   /**< # of completions */
    uint32 num_rxcmplt;       /**< # of rx completions */
    uint32 num_rxcmplt_drbl;  /**< of drbl interrupts for rx complt. */
    uint32 num_txstatus;      /**< # of tx completions */
    uint32 num_txstatus_drbl; /**< of drbl interrupts for tx complt. */
    uint32 deepsleep_count;   /**< # of times chip went to deepsleep */
    uint32 deepsleep_dur;     /**< # of msecs chip was in deepsleep */
    uint32 ltr_active_ct;     /**< # of times chip went to LTR ACTIVE */
    uint32 ltr_active_dur;    /**< # of msecs chip was in LTR ACTIVE */
    uint32 ltr_sleep_ct;      /**< # of times chip went to LTR SLEEP */
    uint32 ltr_sleep_dur;     /**< # of msecs chip was in LTR SLEEP */
} pcie_bus_metrics_t;

typedef struct pcie_cnt {
    uint32 ltr_state;          /**< Current LTR state */
    uint32 l0_sr_cnt;          /**< SR count during L0 */
    uint32 l2l3_sr_cnt;        /**< SR count during L2L3 */
    uint32 d3_ack_sr_cnt;      /**< srcount during last D3-ACK */
    uint32 d3_sr_cnt;          /**< SR count during D3 */
    uint32 d3_info_start;      /**< D3 INFORM received time */
    uint32 d3_info_enter_cnt;  /**< # of D3 INFORM received */
    uint32 d3_cnt;             /**< # of real D3 */
    uint32 d3_ack_sent_cnt;    /**< # of D3 ACK sent count */
    uint32 d3_drop_cnt_event;  /**< # of events dropped during D3 */
    uint32 d2h_req_q_len;      /**< # of Packet pending in D2H request queue */
    uint32 hw_reason;          /**< Last Host wake assert reason */
    uint32 hw_assert_cnt;      /**< # of times Host wake Asserted */
    uint32 host_ready_cnt;     /**< # of Host ready interrupts */
    uint32 hw_assert_reason_0; /**< timestamp when hw_reason is TRAP  */
    uint32 hw_assert_reason_1; /**< timestamp when hw_reason is WL_EVENT */
    uint32 hw_assert_reason_2; /**< timestamp when hw_reason is DATA */
    uint32 hw_assert_reason_3; /**< timestamp when hw_reason is DELAYED_WAKE */
    uint32 last_host_ready;    /**< Timestamp of last Host ready */
    bool hw_asserted;          /**< Flag to indicate if Host wake is Asserted */
    bool event_delivery_pend;  /**< No resources to send event */
    uint16 pad;                /**< Word alignment for scripts */
} pcie_cnt_t;

/** Bus interface info for PCIE */
typedef struct wl_pwr_pcie_stats {
    uint16 type;             /**< WL_PWRSTATS_TYPE_PCIE */
    uint16 len;              /**< Up to 4K-1, top 4 bits are reserved */
    pcie_bus_metrics_t pcie; /**< stats from pcie bus driver */
} wl_pwr_pcie_stats_t;

/** Scan information history per category */
typedef struct scan_data {
    uint32 count; /**< Number of scans performed */
    uint32 dur;   /**< Total time (in us) used */
} scan_data_t;

typedef struct wl_pwr_scan_stats {
    uint16 type; /**< WL_PWRSTATS_TYPE_SCAN */
    uint16 len;  /**< Up to 4K-1, top 4 bits are reserved */

    /* Scan history */
    scan_data_t user_scans;  /**< User-requested scans: (i/e/p)scan */
    scan_data_t assoc_scans; /**< Scans initiated by association requests */
    scan_data_t roam_scans;  /**< Scans initiated by the roam engine */
    scan_data_t
        pno_scans[8];        /**< For future PNO bucketing (BSSID, SSID, etc) */
    scan_data_t other_scans; /**< Scan engine usage not assigned to the above */
} wl_pwr_scan_stats_t;

typedef struct wl_pwr_connect_stats {
    uint16 type; /**< WL_PWRSTATS_TYPE_SCAN */
    uint16 len;  /**< Up to 4K-1, top 4 bits are reserved */

    /* Connection (Association + Key exchange) data */
    uint32 count; /**< Number of connections performed */
    uint32 dur;   /**< Total time (in ms) used */
} wl_pwr_connect_stats_t;

typedef struct wl_pwr_phy_stats {
    uint16 type;   /**< WL_PWRSTATS_TYPE_PHY */
    uint16 len;    /**< Up to 4K-1, top 4 bits are reserved */
    uint32 tx_dur; /**< TX Active duration in us */
    uint32 rx_dur; /**< RX Active duration in us */
} wl_pwr_phy_stats_t;

typedef struct wl_mimo_meas_metrics_v1 {
    uint16 type;
    uint16 len;
    /* Total time(us) idle in MIMO RX chain configuration */
    uint32 total_idle_time_mimo;
    /* Total time(us) idle in SISO  RX chain configuration */
    uint32 total_idle_time_siso;
    /* Total receive time (us) in SISO RX chain configuration */
    uint32 total_rx_time_siso;
    /* Total receive time (us) in MIMO RX chain configuration */
    uint32 total_rx_time_mimo;
    /* Total 1-chain transmit time(us) */
    uint32 total_tx_time_1chain;
    /* Total 2-chain transmit time(us) */
    uint32 total_tx_time_2chain;
    /* Total 3-chain transmit time(us) */
    uint32 total_tx_time_3chain;
} wl_mimo_meas_metrics_v1_t;

typedef struct wl_mimo_meas_metrics {
    uint16 type;
    uint16 len;
    /* Total time(us) idle in MIMO RX chain configuration */
    uint32 total_idle_time_mimo;
    /* Total time(us) idle in SISO  RX chain configuration */
    uint32 total_idle_time_siso;
    /* Total receive time (us) in SISO RX chain configuration */
    uint32 total_rx_time_siso;
    /* Total receive time (us) in MIMO RX chain configuration */
    uint32 total_rx_time_mimo;
    /* Total 1-chain transmit time(us) */
    uint32 total_tx_time_1chain;
    /* Total 2-chain transmit time(us) */
    uint32 total_tx_time_2chain;
    /* Total 3-chain transmit time(us) */
    uint32 total_tx_time_3chain;
    /* End of original, OCL fields start here */
    /* Total time(us) idle in ocl mode */
    uint32 total_idle_time_ocl;
    /* Total receive time (us) in ocl mode */
    uint32 total_rx_time_ocl;
    /* End of OCL fields, internal adjustment fields here */
    /* Total SIFS idle time in MIMO mode */
    uint32 total_sifs_time_mimo;
    /* Total SIFS idle time in SISO mode */
    uint32 total_sifs_time_siso;
} wl_mimo_meas_metrics_t;

typedef struct wl_pwr_slice_index {
    uint16 type; /* WL_PWRSTATS_TYPE_SLICE_INDEX */
    uint16 len;

    uint32 slice_index; /* Slice index for which stats are meant for */
} wl_pwr_slice_index_t;

typedef struct wl_pwr_tsync_stats {
    uint16 type; /**< WL_PWRSTATS_TYPE_TSYNC */
    uint16 len;
    uint32 avb_uptime; /**< AVB uptime in msec */
} wl_pwr_tsync_stats_t;

typedef struct wl_pwr_ops_stats {
    uint16 type;            /* WL_PWRSTATS_TYPE_OPS_STATS */
    uint16 len;             /* total length includes fixed fields */
    uint32 partial_ops_dur; /* Total time(in usec) partial ops duration */
    uint32 full_ops_dur;    /* Total time(in usec) full ops duration */
} wl_pwr_ops_stats_t;

typedef struct wl_pwr_bcntrim_stats {
    uint16 type;                 /* WL_PWRSTATS_TYPE_BCNTRIM_STATS */
    uint16 len;                  /* total length includes fixed fields */
    uint8 associated;            /* STA is associated ? */
    uint8 slice_idx;             /* on which slice STA is associated */
    uint16 pad;                  /* padding */
    uint32 slice_beacon_seen;    /* number of beacons seen on the Infra
                                  * interface on this slice
                                  */
    uint32 slice_beacon_trimmed; /* number beacons actually trimmed on this
                                    slice */
    uint32 total_beacon_seen;    /* total number of beacons seen on the Infra
                                    interface */
    uint32 total_beacon_trimmed; /* total beacons actually trimmed */
} wl_pwr_bcntrim_stats_t;

typedef struct wl_pwr_slice_index_band {
    uint16 type;    /* WL_PWRSTATS_TYPE_SLICE_INDEX_BAND_INFO */
    uint16 len;     /* Total length includes fixed fields */
    uint16 index;   /* Slice Index */
    int16 bandtype; /* Slice Bandtype */
} wl_pwr_slice_index_band_t;

typedef struct wl_pwr_psbw_stats {
    uint16 type;     /* WL_PWRSTATS_TYPE_PSBW_STATS */
    uint16 len;      /* total length includes fixed fields */
    uint8 slice_idx; /* on which slice STA is associated */
    uint8 pad[3];
    uint32 slice_enable_dur; /* time(ms) psbw remains enabled on this slice */
    uint32 total_enable_dur; /* time(ms) psbw remains enabled total */
} wl_pwr_psbw_stats_t;

/* ##### End of Power Stats section ##### */

/** IPV4 Arp offloads for ndis context */
#include <packed_section_start.h>
BWL_PRE_PACKED_STRUCT struct hostip_id {
    struct ipv4_addr ipa;
    uint8 id;
} BWL_POST_PACKED_STRUCT;
#include <packed_section_end.h>

/* Return values */
#define ND_REPLY_PEER 0x1 /**< Reply was sent to service NS request from peer  \
                           */
#define ND_REQ_SINK 0x2   /**< Input packet should be discarded */
#define ND_FORCE_FORWARD 0X3 /**< For the dongle to forward req to HOST */

/** Neighbor Solicitation Response Offload IOVAR param */
#include <packed_section_start.h>
typedef BWL_PRE_PACKED_STRUCT struct nd_param {
    struct ipv6_addr host_ip[2];
    struct ipv6_addr solicit_ip;
    struct ipv6_addr remote_ip;
    uint8 host_mac[ETHER_ADDR_LEN];
    uint32 offload_id;
} BWL_POST_PACKED_STRUCT nd_param_t;
#include <packed_section_end.h>

typedef struct wl_pfn_roam_thresh {
    uint32 pfn_alert_thresh;  /**< time in ms */
    uint32 roam_alert_thresh; /**< time in ms */
} wl_pfn_roam_thresh_t;

/* Reasons for wl_pmalert_t */
#define PM_DUR_EXCEEDED (1 << 0)
#define MPC_DUR_EXCEEDED (1 << 1)
#define ROAM_ALERT_THRESH_EXCEEDED (1 << 2)
#define PFN_ALERT_THRESH_EXCEEDED (1 << 3)
#define CONST_AWAKE_DUR_ALERT (1 << 4)
#define CONST_AWAKE_DUR_RECOVERY (1 << 5)

#define MIN_PM_ALERT_LEN 9

/** Data sent in EXCESS_PM_WAKE event */
#define WL_PM_ALERT_VERSION 3

/** This structure is for version 3; version 2 will be deprecated in by FW */
#include <packed_section_start.h>
typedef BWL_PRE_PACKED_STRUCT struct wl_pmalert {
    uint16 version; /**< Version = 3 is TLV format */
    uint16 length;  /**< Length of entire structure */
    uint32 reasons; /**< reason(s) for pm_alert */
    uint8 data[1];  /**< TLV data, a series of structures,
                     * each starting with type and length.
                     *
                     * Padded as necessary so each section
                     * starts on a 4-byte boundary.
                     *
                     * Both type and len are uint16, but the
                     * upper nibble of length is reserved so
                     * valid len values are 0-4095.
                     */
} BWL_POST_PACKED_STRUCT wl_pmalert_t;
#include <packed_section_end.h>

/* Type values for the data section */
#define WL_PMALERT_FIXED 0     /**< struct wl_pmalert_fixed_t, fixed fields */
#define WL_PMALERT_PMSTATE 1   /**< struct wl_pmalert_pmstate_t, variable */
#define WL_PMALERT_EVENT_DUR 2 /**< struct wl_pmalert_event_dur_t, variable */
#define WL_PMALERT_UCODE_DBG 3 /**< struct wl_pmalert_ucode_dbg_v1, variable   \
                                */
#define WL_PMALERT_PS_ALLOWED_HIST                                             \
    4 /**< struct wl_pmalert_ps_allowed_history, variable */
#define WL_PMALERT_EXT_UCODE_DBG                                               \
    5 /**< struct wl_pmalert_ext_ucode_dbg_t, variable */
#define WL_PMALERT_EPM_START_EVENT_DUR                                         \
    6 /**< struct wl_pmalert_event_dur_t, variable */
#define WL_PMALERT_UCODE_DBG_V2                                                \
    7 /**< struct wl_pmalert_ucode_dbg_v2, variable */

typedef struct wl_pmalert_fixed {
    uint16 type;            /**< WL_PMALERT_FIXED */
    uint16 len;             /**< Up to 4K-1, top 4 bits are reserved */
    uint32 prev_stats_time; /**< msecs */
    uint32 curr_time;       /**< ms */
    uint32 prev_pm_dur;     /**< msecs */
    uint32 pm_dur;          /**< Total sleep time in PM, msecs */
    uint32 prev_mpc_dur;    /**< msecs */
    uint32 mpc_dur;         /**< Total sleep time in MPC, msecs */
    uint32 hw_macc;         /**< HW maccontrol */
    uint32 sw_macc;         /**< SW maccontrol */

    /* int32 drifts = remote - local; +ve drift -> local-clk slow */
    int32 last_drift; /**< Most recent TSF drift from beacon */
    int32 min_drift;  /**< Min TSF drift from beacon in magnitude */
    int32 max_drift;  /**< Max TSF drift from beacon in magnitude */

    uint32 avg_drift; /**< Avg TSF drift from beacon */
    uint32 drift_cnt; /**< Count of drift readings over which avg_drift was
                         computed */
    uint32 frts_time; /**< Cumulative ms spent in data frts since driver load */
    uint32 frts_end_cnt;  /**< No of times frts ended since driver load */
    uint32 prev_frts_dur; /**< Data frts duration at start of pm-period */
    uint32 cal_dur;       /**< Cumulative ms spent in calibration */
    uint32 prev_cal_dur;  /**< cal duration at start of pm-period */
} wl_pmalert_fixed_t;

typedef struct wl_pmalert_pmstate {
    uint16 type; /**< WL_PMALERT_PMSTATE */
    uint16 len;  /**< Up to 4K-1, top 4 bits are reserved */

    uint8 pmwake_idx; /**< for stepping through pm_state */
    uint8 pad[3];
    /* Array of pmstate; len of array is based on tlv len */
    wlc_pm_debug_t pmstate[1];
} wl_pmalert_pmstate_t;

typedef struct wl_pmalert_event_dur {
    uint16 type; /**< WL_PMALERT_EVENT_DUR */
    uint16 len;  /**< Up to 4K-1, top 4 bits are reserved */

    /* Array of event_dur, len of array is based on tlv len */
    uint32 event_dur[1];
} wl_pmalert_event_dur_t;

#include <packed_section_start.h>
BWL_PRE_PACKED_STRUCT struct wl_pmalert_ucode_dbg_v1 {
    uint16 type; /* WL_PMALERT_UCODE_DBG */
    uint16 len;  /* Up to 4K-1, top 4 bits are reserved */
    uint32 macctrl;
    uint16 m_p2p_hps;
    uint32 psm_brc;
    uint32 ifsstat;
    uint16 m_p2p_bss_dtim_prd[MAX_P2P_BSS_DTIM_PRD];
    uint32 psmdebug[20];
    uint32 phydebug[20];
    uint16 M_P2P_BSS[3][12];
    uint16 M_P2P_PRE_TBTT[3];

    /* Following is valid only for corerevs<40 */
    uint16 xmtfifordy;

    /* Following 3 are valid only for 11ac corerevs (>=40) */
    uint16 psm_maccommand;
    uint16 txe_status1;
    uint16 AQMFifoReady;
} BWL_POST_PACKED_STRUCT;
#include <packed_section_end.h>

#include <packed_section_start.h>
BWL_PRE_PACKED_STRUCT struct wl_pmalert_ucode_dbg_v2 {
    uint16 type; /**< WL_PMALERT_UCODE_DBG_V2 */
    uint16 len;  /**< Up to 4K-1, top 4 bits are reserved */
    uint32 macctrl;
    uint16 m_p2p_hps;
    uint32 psm_brc;
    uint32 ifsstat;
    uint16 m_p2p_bss_dtim_prd[MAX_P2P_BSS_DTIM_PRD];
    uint32 psmdebug[20];
    uint32 phydebug[20];
    uint16 M_P2P_BSS[3][12];
    uint16 M_P2P_PRE_TBTT[3];

    /* Following is valid only for corerevs<40 */
    uint16 xmtfifordy;

    /* Following 3 are valid only for 11ac corerevs (>=40) */
    uint16 psm_maccommand;
    uint16 txe_status1;
    uint32 AQMFifoReady;
} BWL_POST_PACKED_STRUCT;
#include <packed_section_end.h>

typedef struct wlc_ps_debug {
    uint32 timestamp; /**< timestamp in millisecond */
    uint32 ps_mask;   /**< reason(s) for disallowing ps */
} wlc_ps_debug_t;

typedef struct wl_pmalert_ps_allowed_hist {
    uint16 type; /**< WL_PMALERT_PS_ALLOWED_HIST */
    uint16 len;  /**< Up to 4K-1, top 4 bits are reserved */
    uint32 ps_allowed_start_idx;
    /* Array of ps_debug, len of array is based on tlv len */
    wlc_ps_debug_t ps_debug[1];
} wl_pmalert_ps_allowed_hist_t;

/* Structures and constants used for "vndr_ie" IOVar interface */
#define VNDR_IE_CMD_LEN                                                        \
    4 /**< length of the set command string:                                   \
       * "add", "del" (+ NUL)                                                  \
       */

#define VNDR_IE_INFO_HDR_LEN (sizeof(uint32))

#include <packed_section_start.h>
typedef BWL_PRE_PACKED_STRUCT struct {
    uint32 pktflag; /**< bitmask indicating which packet(s) contain this IE */
    vndr_ie_t vndr_ie_data; /**< vendor IE data */
} BWL_POST_PACKED_STRUCT vndr_ie_info_t;
#include <packed_section_end.h>

#include <packed_section_start.h>
typedef BWL_PRE_PACKED_STRUCT struct {
    int32 iecount; /**< number of entries in the vndr_ie_list[] array */
    vndr_ie_info_t
        vndr_ie_list[1]; /**< variable size list of vndr_ie_info_t structs */
} BWL_POST_PACKED_STRUCT vndr_ie_buf_t;
#include <packed_section_end.h>

#include <packed_section_start.h>
typedef BWL_PRE_PACKED_STRUCT struct {
    char cmd[VNDR_IE_CMD_LEN]; /**< vndr_ie IOVar set command : "add", "del" +
                                  NUL */
    vndr_ie_buf_t
        vndr_ie_buffer; /**< buffer containing Vendor IE list information */
} BWL_POST_PACKED_STRUCT vndr_ie_setbuf_t;
#include <packed_section_end.h>

/** tag_ID/length/value_buffer tuple */
#include <packed_section_start.h>
typedef BWL_PRE_PACKED_STRUCT struct {
    uint8 id;
    uint8 len;
    uint8 data[1];
} BWL_POST_PACKED_STRUCT tlv_t;
#include <packed_section_end.h>

#include <packed_section_start.h>
typedef BWL_PRE_PACKED_STRUCT struct {
    uint32 pktflag; /**< bitmask indicating which packet(s) contain this IE */
    tlv_t ie_data;  /**< IE data */
} BWL_POST_PACKED_STRUCT ie_info_t;
#include <packed_section_end.h>

#include <packed_section_start.h>
typedef BWL_PRE_PACKED_STRUCT struct {
    int32 iecount;        /**< number of entries in the ie_list[] array */
    ie_info_t ie_list[1]; /**< variable size list of ie_info_t structs */
} BWL_POST_PACKED_STRUCT ie_buf_t;
#include <packed_section_end.h>

#include <packed_section_start.h>
typedef BWL_PRE_PACKED_STRUCT struct {
    char cmd[VNDR_IE_CMD_LEN]; /**< ie IOVar set command : "add" + NUL */
    ie_buf_t ie_buffer;        /**< buffer containing IE list information */
} BWL_POST_PACKED_STRUCT ie_setbuf_t;
#include <packed_section_end.h>

#include <packed_section_start.h>
typedef BWL_PRE_PACKED_STRUCT struct {
    uint32 pktflag; /**< bitmask indicating which packet(s) contain this IE */
    uint8 id;       /**< IE type */
} BWL_POST_PACKED_STRUCT ie_getbuf_t;
#include <packed_section_end.h>

/* structures used to define format of wps ie data from probe requests */
/* passed up to applications via iovar "prbreq_wpsie" */
typedef struct sta_prbreq_wps_ie_hdr {
    struct ether_addr staAddr;
    uint16 ieLen;
} sta_prbreq_wps_ie_hdr_t;

#include <packed_section_start.h>
typedef BWL_PRE_PACKED_STRUCT struct sta_prbreq_wps_ie_data {
    sta_prbreq_wps_ie_hdr_t hdr;
    uint8 ieData[1];
} BWL_POST_PACKED_STRUCT sta_prbreq_wps_ie_data_t;
#include <packed_section_end.h>

#include <packed_section_start.h>
typedef BWL_PRE_PACKED_STRUCT struct sta_prbreq_wps_ie_list {
    uint32 totLen;
    uint8 ieDataList[1];
} BWL_POST_PACKED_STRUCT sta_prbreq_wps_ie_list_t;
#include <packed_section_end.h>

#include <packed_section_start.h>
typedef BWL_PRE_PACKED_STRUCT struct {
    uint32 flags;
    chanspec_t chanspec;       /**< txpwr report for this channel */
    chanspec_t local_chanspec; /**< channel on which we are associated */
    uint8 local_max;           /**< local max according to the AP */
    uint8 local_constraint;    /**< local constraint according to the AP */
    int8 antgain[2];           /**< Ant gain for each band - from SROM */
    uint8 rf_cores;            /**< count of RF Cores being reported */
    uint8 est_Pout[4];         /**< Latest tx power out estimate per RF chain */
    uint8 est_Pout_act[4]; /**< Latest tx power out estimate per RF chain w/o
                              adjustment */
    uint8 est_Pout_cck;    /**< Latest CCK tx power out estimate */
    uint8 tx_power_max[4]; /**< Maximum target power among all rates */
    uint32 tx_power_max_rate_ind[4]; /**< Index of the rate with the max target
                                        power */
    int8 sar;                /**< SAR limit for display by wl executable */
    int8 channel_bandwidth;  /**< 20, 40 or 80 MHz bandwidth? */
    uint8 version;           /**< Version of the data format wlu <--> driver */
    uint8 display_core;      /**< Displayed curpower core */
    int8 target_offsets[4];  /**< Target power offsets for current rate per core
                              */
    uint32 last_tx_ratespec; /**< Ratespec for last transmition */
    uint32 user_target;      /**< user limit */
    uint32 ppr_len;          /**< length of each ppr serialization buffer */
    int8 SARLIMIT[MAX_STREAMS_SUPPORTED];
    uint8 pprdata[1]; /**< ppr serialization buffer */
} BWL_POST_PACKED_STRUCT tx_pwr_rpt_t;
#include <packed_section_end.h>

typedef struct tx_pwr_ru_rate_info {
    uint16 version;
    uint16 ru_alloc;
    uint16 mcs;
    uint16 nss;
    uint16 num_he_ltf_syms;
    uint16 ldpc;
    uint16 gi;
    uint16 txmode;
    uint16 dcm;
    uint16 tx_chain;
} tx_pwr_ru_rate_info_t;

#define TX_PWR_RU_RATE_INFO_VER 1

/* TLV ID for curpower report, ID < 63 is reserved for ppr module */
typedef enum tx_pwr_tlv_id { TX_PWR_RPT_RU_RATE_INFO_ID = 64 } tx_pwr_tlv_id_t;

#include <packed_section_start.h>
typedef BWL_PRE_PACKED_STRUCT struct {
    struct ipv4_addr ipv4_addr;
    struct ether_addr nexthop;
} BWL_POST_PACKED_STRUCT ibss_route_entry_t;
#include <packed_section_end.h>

#include <packed_section_start.h>
typedef BWL_PRE_PACKED_STRUCT struct {
    uint32 num_entry;
    ibss_route_entry_t route_entry[1];
} BWL_POST_PACKED_STRUCT ibss_route_tbl_t;
#include <packed_section_end.h>

#define MAX_IBSS_ROUTE_TBL_ENTRY 64

#define TXPWR_TARGET_VERSION 0
#include <packed_section_start.h>
typedef BWL_PRE_PACKED_STRUCT struct {
    int32 version;              /**< version number */
    chanspec_t chanspec;        /**< txpwr report for this channel */
    int8 txpwr[WL_STA_ANT_MAX]; /**< Max tx target power, in qdb */
    uint8 rf_cores;             /**< count of RF Cores being reported */
} BWL_POST_PACKED_STRUCT txpwr_target_max_t;
#include <packed_section_end.h>

#define BSS_PEER_INFO_PARAM_CUR_VER 0
/** Input structure for IOV_BSS_PEER_INFO */
#include <packed_section_start.h>
typedef BWL_PRE_PACKED_STRUCT struct {
    uint16 version;
    struct ether_addr ea; /**< peer MAC address */
} BWL_POST_PACKED_STRUCT bss_peer_info_param_t;
#include <packed_section_end.h>

#define BSS_PEER_INFO_CUR_VER 0

#include <packed_section_start.h>
typedef BWL_PRE_PACKED_STRUCT struct {
    uint16 version;
    struct ether_addr ea;
    int32 rssi;
    uint32 tx_rate;       /**< current tx rate */
    uint32 rx_rate;       /**< current rx rate */
    wl_rateset_t rateset; /**< rateset in use */
    uint32 age;           /**< age in seconds */
} BWL_POST_PACKED_STRUCT bss_peer_info_t;
#include <packed_section_end.h>

#define BSS_PEER_LIST_INFO_CUR_VER 0

#include <packed_section_start.h>
typedef BWL_PRE_PACKED_STRUCT struct {
    uint16 version;
    uint16 bss_peer_info_len;     /**< length of bss_peer_info_t */
    uint32 count;                 /**< number of peer info */
    bss_peer_info_t peer_info[1]; /**< peer info */
} BWL_POST_PACKED_STRUCT bss_peer_list_info_t;
#include <packed_section_end.h>

#define BSS_PEER_LIST_INFO_FIXED_LEN OFFSETOF(bss_peer_list_info_t, peer_info)

#define AIBSS_BCN_FORCE_CONFIG_VER_0 0

/** structure used to configure AIBSS beacon force xmit */
#include <packed_section_start.h>
typedef BWL_PRE_PACKED_STRUCT struct {
    uint16 version;
    uint16 len;
    uint32 initial_min_bcn_dur; /**< dur in ms to check a bcn in bcn_flood
                                   period */
    uint32 min_bcn_dur; /**< dur in ms to check a bcn after bcn_flood period */
    uint32 bcn_flood_dur; /**< Initial bcn xmit period in ms */
} BWL_POST_PACKED_STRUCT aibss_bcn_force_config_t;
#include <packed_section_end.h>

#define AIBSS_TXFAIL_CONFIG_VER_0 0
#define AIBSS_TXFAIL_CONFIG_VER_1 1
#define AIBSS_TXFAIL_CONFIG_CUR_VER AIBSS_TXFAIL_CONFIG_VER_1

/** structure used to configure aibss tx fail event */
#include <packed_section_start.h>
typedef BWL_PRE_PACKED_STRUCT struct {
    uint16 version;
    uint16 len;
    uint32 bcn_timeout;  /**< dur in seconds to receive 1 bcn */
    uint32 max_tx_retry; /**< no of consecutive no acks to send txfail event */
    uint32 max_atim_failure; /**< no of consecutive atim failure */
} BWL_POST_PACKED_STRUCT aibss_txfail_config_t;
#include <packed_section_end.h>

#include <packed_section_start.h>
typedef BWL_PRE_PACKED_STRUCT struct wl_aibss_if {
    uint16 version;
    uint16 len;
    uint32 flags;
    struct ether_addr addr;
    chanspec_t chspec;
} BWL_POST_PACKED_STRUCT wl_aibss_if_t;
#include <packed_section_end.h>

#include <packed_section_start.h>
typedef BWL_PRE_PACKED_STRUCT struct wlc_ipfo_route_entry {
    struct ipv4_addr ip_addr;
    struct ether_addr nexthop;
} BWL_POST_PACKED_STRUCT wlc_ipfo_route_entry_t;
#include <packed_section_end.h>

#include <packed_section_start.h>
typedef BWL_PRE_PACKED_STRUCT struct wlc_ipfo_route_tbl {
    uint32 num_entry;
    wlc_ipfo_route_entry_t route_entry[1];
} BWL_POST_PACKED_STRUCT wlc_ipfo_route_tbl_t;
#include <packed_section_end.h>

/* Version of wlc_btc_stats_t structure.
 * Increment whenever a change is made to wlc_btc_stats_t
 */
#define BTCX_STATS_VER_4 4
typedef struct wlc_btc_stats_v4 {
    uint16 version;                /* version number of struct */
    uint16 valid;                  /* Size of this struct */
    uint32 stats_update_timestamp; /* tStamp when data is updated. */
    uint32 btc_status;             /* Hybrid/TDM indicator: Bit2:Hybrid,
                                      Bit1:TDM,Bit0:CoexEnabled */
    uint32 bt_req_type_map; /* BT Antenna Req types since last stats sample */
    uint32 bt_req_cnt;      /* #BT antenna requests since last stats sampl */
    uint32 bt_gnt_cnt;      /* #BT antenna grants since last stats sample */
    uint32 bt_gnt_dur;      /* usec BT owns antenna since last stats sample */
    uint16 bt_abort_cnt;    /* #Times WL was preempted due to BT since WL up */
    uint16 bt_rxf1ovfl_cnt; /* #Time PSNULL retry count exceeded since WL up */
    uint16 bt_latency_cnt;  /* #Time ucode high latency detected since WL up */
    uint16 bt_succ_pm_protect_cnt;  /* successful PM protection */
    uint16 bt_succ_cts_cnt;         /* successful CTS2A protection */
    uint16 bt_wlan_tx_preempt_cnt;  /* WLAN TX Preemption */
    uint16 bt_wlan_rx_preempt_cnt;  /* WLAN RX Preemption */
    uint16 bt_ap_tx_after_pm_cnt;   /* AP TX even after PM protection */
    uint16 bt_peraud_cumu_gnt_cnt;  /* Grant cnt for periodic audio */
    uint16 bt_peraud_cumu_deny_cnt; /* Deny cnt for periodic audio */
    uint16 bt_a2dp_cumu_gnt_cnt;    /* Grant cnt for A2DP */
    uint16 bt_a2dp_cumu_deny_cnt;   /* Deny cnt for A2DP */
    uint16 bt_sniff_cumu_gnt_cnt;   /* Grant cnt for Sniff */
    uint16 bt_sniff_cumu_deny_cnt;  /* Deny cnt for Sniff */
    uint16 bt_dcsn_map; /* Accumulated decision bitmap once Ant grant */
    uint16
        bt_dcsn_cnt; /* Accumulated decision bitmap counters once Ant grant */
    uint16 bt_a2dp_hiwat_cnt; /* Ant grant by a2dp high watermark */
    uint16 bt_datadelay_cnt;  /* Ant grant by acl/a2dp datadelay */
    uint16 bt_crtpri_cnt;     /* Ant grant by critical BT task */
    uint16 bt_pri_cnt;        /* Ant grant by high BT task */
    uint16 a2dpbuf1cnt;       /* Ant request with a2dp buffercnt 1 */
    uint16 a2dpbuf2cnt;       /* Ant request with a2dp buffercnt 2 */
    uint16 a2dpbuf3cnt;       /* Ant request with a2dp buffercnt 3 */
    uint16 a2dpbuf4cnt;       /* Ant request with a2dp buffercnt 4 */
    uint16 a2dpbuf5cnt;       /* Ant request with a2dp buffercnt 5 */
    uint16 a2dpbuf6cnt;       /* Ant request with a2dp buffercnt 6 */
    uint16 a2dpbuf7cnt;       /* Ant request with a2dp buffercnt 7 */
    uint16 a2dpbuf8cnt;       /* Ant request with a2dp buffercnt 8 */
    uint16 antgrant_lt10ms;   /* Ant grant duration cnt 0~10ms */
    uint16 antgrant_lt30ms;   /* Ant grant duration cnt 10~30ms */
    uint16 antgrant_lt60ms;   /* Ant grant duration cnt 30~60ms */
    uint16 antgrant_ge60ms;   /* Ant grant duration cnt 60~ms */
} wlc_btc_stats_v4_t;

#define BTCX_STATS_VER_3 3

typedef struct wlc_btc_stats_v3 {
    uint16 version;                /* version number of struct */
    uint16 valid;                  /* Size of this struct */
    uint32 stats_update_timestamp; /* tStamp when data is updated. */
    uint32 btc_status;             /* Hybrid/TDM indicator: Bit2:Hybrid,
                                      Bit1:TDM,Bit0:CoexEnabled */
    uint32 bt_req_type_map; /* BT Antenna Req types since last stats sample */
    uint32 bt_req_cnt;      /* #BT antenna requests since last stats sampl */
    uint32 bt_gnt_cnt;      /* #BT antenna grants since last stats sample */
    uint32 bt_gnt_dur;      /* usec BT owns antenna since last stats sample */
    uint16 bt_abort_cnt;    /* #Times WL was preempted due to BT since WL up */
    uint16 bt_rxf1ovfl_cnt; /* #Time PSNULL retry count exceeded since WL up */
    uint16 bt_latency_cnt;  /* #Time ucode high latency detected since WL up */
    uint16 rsvd;            /* pad to align struct to 32bit bndry	 */
    uint16 bt_succ_pm_protect_cnt;  /* successful PM protection */
    uint16 bt_succ_cts_cnt;         /* successful CTS2A protection */
    uint16 bt_wlan_tx_preempt_cnt;  /* WLAN TX Preemption */
    uint16 bt_wlan_rx_preempt_cnt;  /* WLAN RX Preemption */
    uint16 bt_ap_tx_after_pm_cnt;   /* AP TX even after PM protection */
    uint16 bt_peraud_cumu_gnt_cnt;  /* Grant cnt for periodic audio */
    uint16 bt_peraud_cumu_deny_cnt; /* Deny cnt for periodic audio */
    uint16 bt_a2dp_cumu_gnt_cnt;    /* Grant cnt for A2DP */
    uint16 bt_a2dp_cumu_deny_cnt;   /* Deny cnt for A2DP */
    uint16 bt_sniff_cumu_gnt_cnt;   /* Grant cnt for Sniff */
    uint16 bt_sniff_cumu_deny_cnt;  /* Deny cnt for Sniff */
    uint8 pad;                      /* Padding */
    uint8 slice_index;              /* Slice to report */
} wlc_btc_stats_v3_t;

#define BTCX_STATS_VER_2 2

typedef struct wlc_btc_stats_v2 {
    uint16 version;                /* version number of struct */
    uint16 valid;                  /* Size of this struct */
    uint32 stats_update_timestamp; /* tStamp when data is updated. */
    uint32 btc_status;             /* Hybrid/TDM indicator: Bit2:Hybrid,
                                      Bit1:TDM,Bit0:CoexEnabled */
    uint32 bt_req_type_map; /* BT Antenna Req types since last stats sample */
    uint32 bt_req_cnt;      /* #BT antenna requests since last stats sampl */
    uint32 bt_gnt_cnt;      /* #BT antenna grants since last stats sample */
    uint32 bt_gnt_dur;      /* usec BT owns antenna since last stats sample */
    uint16 bt_abort_cnt;    /* #Times WL was preempted due to BT since WL up */
    uint16 bt_rxf1ovfl_cnt; /* #Time PSNULL retry count exceeded since WL up */
    uint16 bt_latency_cnt;  /* #Time ucode high latency detected since WL up */
    uint16 rsvd;            /* pad to align struct to 32bit bndry	 */
} wlc_btc_stats_v2_t;

/* Durations for each bt task in millisecond */
#define WL_BTCX_DURSTATS_VER_1 (1u)
typedef struct wlc_btcx_durstats_v1 {
    uint16 version;                /* version number of struct */
    uint16 valid;                  /* validity of this struct */
    uint32 stats_update_timestamp; /* tStamp when data is updated */
    uint16 bt_acl_dur;             /* acl duration in ms */
    uint16 bt_sco_dur;             /* sco duration in ms */
    uint16 bt_esco_dur;            /* esco duration in ms */
    uint16 bt_a2dp_dur;            /* a2dp duration in ms */
    uint16 bt_sniff_dur;           /* sniff duration in ms */
    uint16 bt_pscan_dur;           /* page scan duration in ms */
    uint16 bt_iscan_dur;           /* inquiry scan duration in ms */
    uint16 bt_page_dur;            /* paging duration in ms */
    uint16 bt_inquiry_dur;         /* inquiry duration in ms */
    uint16 bt_mss_dur;             /* mss duration in ms */
    uint16 bt_park_dur;            /* park duration in ms */
    uint16 bt_rssiscan_dur;        /* rssiscan duration in ms */
    uint16 bt_iscan_sco_dur;       /* inquiry scan sco duration in ms */
    uint16 bt_pscan_sco_dur;       /* page scan sco duration in ms */
    uint16 bt_tpoll_dur;           /* tpoll duration in ms */
    uint16 bt_sacq_dur;            /* sacq duration in ms */
    uint16 bt_sdata_dur;           /* sdata duration in ms */
    uint16 bt_rs_listen_dur;       /* rs listen duration in ms */
    uint16 bt_rs_burst_dur;        /* rs brust duration in ms */
    uint16 bt_ble_adv_dur;         /* ble adv duration in ms */
    uint16 bt_ble_scan_dur;        /* ble scan duration in ms */
    uint16 bt_ble_init_dur;        /* ble init duration in ms */
    uint16 bt_ble_conn_dur;        /* ble connection duration in ms */
    uint16 bt_task_lmp_dur;        /* lmp duration in ms */
    uint16 bt_esco_retran_dur;     /* esco retransmission duration in ms */
    uint16 bt_task26_dur;          /* task26 duration in ms */
    uint16 bt_task27_dur;          /* task27 duration in ms */
    uint16 bt_task28_dur;          /* task28 duration in ms */
    uint16 bt_task_pred_dur;       /* prediction task duration in ms */
    uint16 bt_multihid_dur;        /* multihid duration in ms */
} wlc_btcx_durstats_v1_t;

#define WL_IPFO_ROUTE_TBL_FIXED_LEN 4
#define WL_MAX_IPFO_ROUTE_TBL_ENTRY 64

/* Global ASSERT Logging */
#define ASSERTLOG_CUR_VER 0x0100
#define MAX_ASSRTSTR_LEN 64

typedef struct assert_record {
    uint32 time;
    uint8 seq_num;
    int8 str[MAX_ASSRTSTR_LEN];
} assert_record_t;

typedef struct assertlog_results {
    uint16 version;
    uint16 record_len;
    uint32 num;
    assert_record_t logs[1];
} assertlog_results_t;

#define LOGRRC_FIX_LEN 8
#define IOBUF_ALLOWED_NUM_OF_LOGREC(type, len)                                 \
    ((len - LOGRRC_FIX_LEN) / sizeof(type))
/* BCMWAPI_WAI */
#define IV_LEN 16 /* same as SMS4_WPI_PN_LEN */
struct wapi_sta_msg_t {
    uint16 msg_type;
    uint16 datalen;
    uint8 vap_mac[6];
    uint8 reserve_data1[2];
    uint8 sta_mac[6];
    uint8 reserve_data2[2];
    uint8 gsn[IV_LEN];
    uint8 wie[TLV_BODY_LEN_MAX + TLV_HDR_LEN]; /* 257 */
    uint8 pad[3];                              /* padding for alignment */
};
/* #endif BCMWAPI_WAI */
/* chanim acs record */
typedef struct {
    uint8 valid;
    uint8 trigger;
    chanspec_t selected_chspc;
    int8 bgnoise;
    uint32 glitch_cnt;
    uint8 ccastats;
    uint8 chan_idle;
    uint32 timestamp;
} chanim_acs_record_t;

typedef struct {
    chanim_acs_record_t acs_record[CHANIM_ACS_RECORD];
    uint8 count;
    uint32 timestamp;
} wl_acs_record_t;

#define WL_CHANIM_STATS_V2 2
#define CCASTATS_V2_MAX 9
typedef struct chanim_stats_v2 {
    uint32 glitchcnt;                /**< normalized as per second count */
    uint32 badplcp;                  /**< normalized as per second count */
    uint8 ccastats[CCASTATS_V2_MAX]; /**< normalized as 0-255 */
    int8 bgnoise;                    /**< background noise level (in dBm) */
    chanspec_t chanspec;             /**< ctrl chanspec of the interface */
    uint32 timestamp;      /**< time stamp at which the stats are collected */
    uint32 bphy_glitchcnt; /**< normalized as per second count */
    uint32 bphy_badplcp;   /**< normalized as per second count */
    uint8 chan_idle;       /**< normalized as 0~255 */
    uint8 PAD[3];
} chanim_stats_v2_t;

typedef struct chanim_stats {
    uint32 glitchcnt;             /**< normalized as per second count */
    uint32 badplcp;               /**< normalized as per second count */
    uint8 ccastats[CCASTATS_MAX]; /**< normalized as 0-255 */
    int8 bgnoise;                 /**< background noise level (in dBm) */
    uint8 pad_1[11 - CCASTATS_MAX];
    chanspec_t chanspec; /**< ctrl chanspec of the interface */
    uint8 pad_2[2];
    uint32 timestamp;      /**< time stamp at which the stats are collected */
    uint32 bphy_glitchcnt; /**< normalized as per second count */
    uint32 bphy_badplcp;   /**< normalized as per second count */
    uint8 chan_idle;       /**< normalized as 0~255 */
    uint8 PAD[3];
} chanim_stats_t;

#define WL_CHANIM_STATS_VERSION 3
typedef struct {
    uint32 buflen;
    uint32 version;
    uint32 count;
    chanim_stats_t stats[1];
} wl_chanim_stats_t;

#define WL_CHANIM_STATS_FIXED_LEN OFFSETOF(wl_chanim_stats_t, stats)

/** Noise measurement metrics. */
#define NOISE_MEASURE_KNOISE 0x1

/** scb probe parameter */
typedef struct {
    uint32 scb_timeout;
    uint32 scb_activity_time;
    uint32 scb_max_probe;
} wl_scb_probe_t;

/* structure/defines for selective mgmt frame (smf) stats support */

#define SMFS_VERSION 1
/** selected mgmt frame (smf) stats element */
typedef struct wl_smfs_elem {
    uint32 count;
    uint16 code; /**< SC or RC code */
    uint8 PAD[2];
} wl_smfs_elem_t;

typedef struct wl_smf_stats {
    uint32 version;
    uint16 length; /**< reserved for future usage */
    uint8 type;
    uint8 codetype;
    uint32 ignored_cnt;
    uint32 malformed_cnt;
    uint32 count_total; /**< count included the interested group */
    wl_smfs_elem_t elem[1];
} wl_smf_stats_t;

#define WL_SMFSTATS_FIXED_LEN OFFSETOF(wl_smf_stats_t, elem);

enum { SMFS_CODETYPE_SC, SMFS_CODETYPE_RC };

typedef enum smfs_type {
    SMFS_TYPE_AUTH,
    SMFS_TYPE_ASSOC,
    SMFS_TYPE_REASSOC,
    SMFS_TYPE_DISASSOC_TX,
    SMFS_TYPE_DISASSOC_RX,
    SMFS_TYPE_DEAUTH_TX,
    SMFS_TYPE_DEAUTH_RX,
    SMFS_TYPE_MAX
} smfs_type_t;

/* #ifdef PHYMON */

#define PHYMON_VERSION 1

typedef struct wl_phycal_core_state {
    /* Tx IQ/LO calibration coeffs */
    int16 tx_iqlocal_a;
    int16 tx_iqlocal_b;
    int8 tx_iqlocal_ci;
    int8 tx_iqlocal_cq;
    int8 tx_iqlocal_di;
    int8 tx_iqlocal_dq;
    int8 tx_iqlocal_ei;
    int8 tx_iqlocal_eq;
    int8 tx_iqlocal_fi;
    int8 tx_iqlocal_fq;

    /** Rx IQ calibration coeffs */
    int16 rx_iqcal_a;
    int16 rx_iqcal_b;

    uint8 tx_iqlocal_pwridx; /**< Tx Power Index for Tx IQ/LO calibration */
    uint8 PAD[3];
    uint32 papd_epsilon_table[64]; /**< PAPD epsilon table */
    int16 papd_epsilon_offset;     /**< PAPD epsilon offset */
    uint8 curr_tx_pwrindex;        /**< Tx power index */
    int8 idle_tssi;                /**< Idle TSSI */
    int8 est_tx_pwr;               /**< Estimated Tx Power (dB) */
    int8 est_rx_pwr;               /**< Estimated Rx Power (dB) from RSSI */
    uint16 rx_gaininfo;            /**< Rx gain applied on last Rx pkt */
    uint16 init_gaincode;          /**< initgain required for ACI */
    int8 estirr_tx;
    int8 estirr_rx;
} wl_phycal_core_state_t;

typedef struct wl_phycal_state {
    int32 version;
    int8 num_phy_cores;    /**< number of cores */
    int8 curr_temperature; /**< on-chip temperature sensor reading */
    chanspec_t chspec;     /**< channspec for this state */
    uint8 aci_state;       /**< ACI state: ON/OFF */
    uint8 PAD;
    uint16 crsminpower;  /**< crsminpower required for ACI */
    uint16 crsminpowerl; /**< crsminpowerl required for ACI */
    uint16 crsminpoweru; /**< crsminpoweru required for ACI */
    wl_phycal_core_state_t phycal_core[1];
} wl_phycal_state_t;

#define WL_PHYCAL_STAT_FIXED_LEN OFFSETOF(wl_phycal_state_t, phycal_core)
/* endif PHYMON */

/** discovery state */
typedef struct wl_p2p_disc_st {
    uint8 state; /**< see state */
    uint8 PAD;
    chanspec_t chspec; /**< valid in listen state */
    uint16 dwell;      /**< valid in listen state, in ms */
} wl_p2p_disc_st_t;

/** scan request */
typedef struct wl_p2p_scan {
    uint8 type; /**< 'S' for WLC_SCAN, 'E' for "escan" */
    uint8 reserved[3];
    /* scan or escan parms... */
} wl_p2p_scan_t;

/** i/f request */
typedef struct wl_p2p_if {
    struct ether_addr addr;
    uint8 type; /**< see i/f type */
    uint8 PAD;
    chanspec_t chspec; /**< for p2p_ifadd GO */
} wl_p2p_if_t;

/** i/f query */
typedef struct wl_p2p_ifq {
    uint32 bsscfgidx;
    char ifname[BCM_MSG_IFNAME_MAX];
} wl_p2p_ifq_t;

/** OppPS & CTWindow */
typedef struct wl_p2p_ops {
    uint8 ops; /**< 0: disable 1: enable */
    uint8 ctw; /**< >= 10 */
} wl_p2p_ops_t;

/** absence and presence request */
typedef struct wl_p2p_sched_desc {
    uint32 start;
    uint32 interval;
    uint32 duration;
    uint32 count; /**< see count */
} wl_p2p_sched_desc_t;

typedef struct wl_p2p_sched {
    uint8 type;   /**< see schedule type */
    uint8 action; /**< see schedule action */
    uint8 option; /**< see schedule option */
    uint8 PAD;
    wl_p2p_sched_desc_t desc[1];
} wl_p2p_sched_t;

typedef struct wl_p2p_wfds_hash {
    uint32 advt_id;
    uint16 nw_cfg_method;
    uint8 wfds_hash[6];
    uint8 name_len;
    uint8 service_name[MAX_WFDS_SVC_NAME_LEN];
    uint8 PAD[3];
} wl_p2p_wfds_hash_t;

typedef struct wl_p2p_config_params {
    uint16 enable;   /**< 0: disable 1: enable */
    uint16 chanspec; /* GO chanspec */
    wlc_ssid_t ssid; /* SSID */
} wl_p2p_config_params_t;

typedef struct wl_bcmdcs_data {
    uint32 reason;
    chanspec_t chspec;
    uint8 PAD[2];
} wl_bcmdcs_data_t;
/* ifdef EXT_STA */
/**
 * Format of IHV data passed to OID_DOT11_NIC_SPECIFIC_EXTENSION.
 */
typedef struct _IHV_NIC_SPECIFIC_EXTENSION {
    uint8 oui[4];     /**< vendor specific OUI value */
    uint32 event;     /**< event code */
    uint8 ihvData[1]; /**< ihv data */
} IHV_NIC_SPECIFIC_EXTENSION, *PIHV_NIC_SPECIFIC_EXTENSION;
#define IHV_NIC_SPECIFIC_EXTENTION_HEADER                                      \
    OFFSETOF(IHV_NIC_SPECIFIC_EXTENSION, ihvData[0])
/* EXT_STA */
/** NAT configuration */
typedef struct {
    uint32 ipaddr;         /**< interface ip address */
    uint32 ipaddr_mask;    /**< interface ip address mask */
    uint32 ipaddr_gateway; /**< gateway ip address */
    uint8 mac_gateway[6];  /**< gateway mac address */
    uint8 PAD[2];
    uint32 ipaddr_dns; /**< DNS server ip address, valid only for public if */
    uint8 mac_dns[6];  /**< DNS server mac address,  valid only for public if */
    uint8 GUID[38];    /**< interface GUID */
} nat_if_info_t;

typedef struct {
    uint32 op;    /**< operation code */
    uint8 pub_if; /**< set for public if, clear for private if */
    uint8 PAD[3];
    nat_if_info_t if_info; /**< interface info */
} nat_cfg_t;

typedef struct {
    int32 state; /**< NAT state returned */
} nat_state_t;

typedef struct flush_txfifo {
    uint32 txfifobmp;
    uint32 hwtxfifoflush;
    struct ether_addr ea;
    uint8 PAD[2];
} flush_txfifo_t;

enum {
    SPATIAL_MODE_2G_IDX = 0,
    SPATIAL_MODE_5G_LOW_IDX,
    SPATIAL_MODE_5G_MID_IDX,
    SPATIAL_MODE_5G_HIGH_IDX,
    SPATIAL_MODE_5G_UPPER_IDX,
    SPATIAL_MODE_MAX_IDX
};

#define WLC_TXCORE_MAX 4     /**< max number of txcore supports */
#define WLC_TXCORE_MAX_OLD 2 /**< backward compatibilty for TXCAL */
#define WLC_SUBBAND_MAX 4    /**< max number of sub-band supports */
typedef struct {
    uint8 band2g[WLC_TXCORE_MAX];
    uint8 band5g[WLC_SUBBAND_MAX][WLC_TXCORE_MAX];
} sar_limit_t;

#define MAX_NUM_TXCAL_MEAS 128
#define MAX_NUM_PWR_STEP 40
#define TXCAL_IOVAR_VERSION 0x1

#define TXCAL_GAINSWEEP_VER (TXCAL_GAINSWEEP_VERSION_V2)
#define TXCAL_GAINSWEEP_VERSION_V2 2

/* Below macro defines the latest txcal iovar version updated */
/* This macro also reflects in the 'txcal_ver' iovar */
#define TXCAL_IOVAR_LATEST TXCAL_GAINSWEEP_VER

/* below are used for bphy/ofdm separated LSC */
#define TXCAL_PWR_BPHY 0
#define TXCAL_PWR_OFDM 1

typedef struct wl_txcal_meas_percore {
    uint16 tssi[MAX_NUM_TXCAL_MEAS];
    int16 pwr[MAX_NUM_TXCAL_MEAS];
} wl_txcal_meas_percore_t;

typedef struct wl_txcal_meas_ncore {
    uint16 version;
    uint8 valid_cnt;
    uint8 num_core;
    wl_txcal_meas_percore_t txcal_percore[1];
} wl_txcal_meas_ncore_t;

typedef struct wl_txcal_power_tssi_percore {
    int16 tempsense;
    int16 pwr_start;
    uint8 pwr_start_idx;
    uint8 num_entries;
    uint16 pad;
    uint8 tssi[MAX_NUM_PWR_STEP];
} wl_txcal_power_tssi_percore_t;

typedef struct wl_txcal_power_tssi_ncore {
    uint16 version;
    uint8 set_core;
    uint8 channel;
    uint8 num_core;
    uint8 gen_tbl;
    uint8 ofdm;
    uint8 pad;
    wl_txcal_power_tssi_percore_t tssi_percore[4];
} wl_txcal_power_tssi_ncore_t;

typedef struct wl_txcal_meas {
    uint16 tssi[WLC_TXCORE_MAX][MAX_NUM_TXCAL_MEAS];
    int16 pwr[WLC_TXCORE_MAX][MAX_NUM_TXCAL_MEAS];
    uint8 valid_cnt;
    uint8 PAD;
} wl_txcal_meas_t;

typedef struct wl_txcal_meas_old {
    uint16 tssi[WLC_TXCORE_MAX_OLD][MAX_NUM_TXCAL_MEAS];
    int16 pwr[WLC_TXCORE_MAX_OLD][MAX_NUM_TXCAL_MEAS];
    uint8 valid_cnt;
    uint8 PAD;
} wl_txcal_meas_old_t;

typedef struct wl_txcal_power_tssi {
    uint8 set_core;
    uint8 channel;
    int16 tempsense[WLC_TXCORE_MAX];
    int16 pwr_start[WLC_TXCORE_MAX];
    uint8 pwr_start_idx[WLC_TXCORE_MAX];
    uint8 num_entries[WLC_TXCORE_MAX];
    uint8 tssi[WLC_TXCORE_MAX][MAX_NUM_PWR_STEP];
    uint8 gen_tbl;
    uint8 ofdm;
} wl_txcal_power_tssi_t;

typedef struct wl_txcal_power_tssi_old {
    uint8 set_core;
    uint8 channel;
    int16 tempsense[WLC_TXCORE_MAX_OLD];
    int16 pwr_start[WLC_TXCORE_MAX_OLD];
    uint8 pwr_start_idx[WLC_TXCORE_MAX_OLD];
    uint8 num_entries[WLC_TXCORE_MAX_OLD];
    uint8 tssi[WLC_TXCORE_MAX_OLD][MAX_NUM_PWR_STEP];
    uint8 gen_tbl;
    uint8 ofdm;
} wl_txcal_power_tssi_old_t;

typedef struct wl_olpc_pwr {
    uint16 version;
    uint8 core;
    uint8 channel;
    int16 tempsense;
    uint8 olpc_idx;
    uint8 ofdm;
} wl_olpc_pwr_t;

typedef struct wl_rfem_temp_vdet_temp {
    uint8 vdet_fem_t1;
    int8 rfem_temp_t1;
    uint8 vdet_fem_t2;
    int8 rfem_temp_t2;
} wl_rfem_temp_vdet_temp_t;

typedef struct wl_rfem_temp_vin_tssi {
    uint16 vin_chip_v1;
    int16 tssi_chip_v1;
    uint16 vin_chip_v2;
    int16 tssi_chip_v2;
} wl_rfem_temp_vin_tssi_t;

typedef struct wl_txcal_tempsense {
    uint16 version;
    uint8 valid_cnt;
    uint8 core;
    int16 ref_temperature;
    int16 meas_temperature;
    wl_rfem_temp_vdet_temp_t vdet_temp;
    wl_rfem_temp_vin_tssi_t vin_tssi;
} wl_txcal_tempsense_t;

/** IOVAR "mempool" parameter. Used to retrieve a list of memory pool
 * statistics. */
typedef struct wl_mempool_stats {
    int32 num;           /**< Number of memory pools */
    bcm_mp_stats_t s[1]; /**< Variable array of memory pool stats. */
} wl_mempool_stats_t;

typedef struct {
    uint32 ipaddr;
    uint32 ipaddr_netmask;
    uint32 ipaddr_gateway;
} nwoe_ifconfig_t;

/* Both powersel_params and lpc_params are used by IOVAR lpc_params.
 * The powersel_params is replaced by lpc_params in later WLC versions.
 */
typedef struct powersel_params {
    /* LPC Params exposed via IOVAR */
    int32 tp_ratio_thresh;  /**< Throughput ratio threshold */
    uint8 rate_stab_thresh; /**< Thresh for rate stability based on nupd */
    uint8 pwr_stab_thresh;  /**< Number of successes before power step down */
    uint8 pwr_sel_exp_time; /**< Time lapse for expiry of database */
    uint8 PAD;
} powersel_params_t;

#define WL_LPC_PARAMS_VER_2 2
#define WL_LPC_PARAMS_CURRENT_VERSION WL_LPC_PARAMS_VER_2

typedef struct lpc_params {
    uint16 version;
    uint16 length;
    /* LPC Params exposed via IOVAR */
    uint8 rate_stab_thresh; /**< Thresh for rate stability based on nupd */
    uint8 pwr_stab_thresh;  /**< Number of successes before power step down */
    uint8 lpc_exp_time;     /**< Time lapse for expiry of database */
    uint8 pwrup_slow_step;  /**< Step size for slow step up */
    uint8 pwrup_fast_step;  /**< Step size for fast step up */
    uint8 pwrdn_slow_step;  /**< Step size for slow step down */
} lpc_params_t;

/* tx pkt delay statistics */
#define SCB_RETRY_SHORT_DEF 7 /**< Default Short retry Limit */
#define WLPKTDLY_HIST_NBINS                                                    \
    16 /**< number of bins used in the Delay histogram */

/** structure to store per-AC delay statistics */
typedef struct scb_delay_stats {
    uint32 txmpdu_lost;                     /**< number of MPDUs lost */
    uint32 txmpdu_cnt[SCB_RETRY_SHORT_DEF]; /**< retry times histogram */
    uint32 delay_sum[SCB_RETRY_SHORT_DEF];  /**< cumulative packet latency */
    uint32 delay_min; /**< minimum packet latency observed */
    uint32 delay_max; /**< maximum packet latency observed */
    uint32 delay_avg; /**< packet latency average */
    uint32 delay_hist[WLPKTDLY_HIST_NBINS]; /**< delay histogram */
    uint32 delay_count;     /**< minimum number of time period units before
                    consequent packet delay events can be generated
                    */
    uint32 prev_txmpdu_cnt; /**< Previous value of txmpdu_cnt[] during last
                               iteration */
    uint32 prev_delay_sum;  /**< Previous value of delay_sum[] during last
                               iteration */
} scb_delay_stats_t;

/** structure for txdelay event */
typedef struct txdelay_event {
    uint8 status;
    uint8 PAD[3];
    int32 rssi;
    chanim_stats_t chanim_stats;
    scb_delay_stats_t delay_stats[AC_COUNT];
} txdelay_event_t;

/** structure for txdelay parameters */
typedef struct txdelay_params {
    uint16 ratio; /**< Avg Txdelay Delta */
    uint8 cnt;    /**< Sample cnt */
    uint8 period; /**< Sample period */
    uint8 tune;   /**< Debug */
    uint8 PAD;
} txdelay_params_t;
#define MAX_TXDELAY_STATS_SCBS 6
#define TXDELAY_STATS_VERSION 1

enum { TXDELAY_STATS_PARTIAL_RESULT = 0, TXDELAY_STATS_FULL_RESULT = 1 };

typedef struct scb_total_delay_stats {
    struct ether_addr ea;
    uint8 pad[2];
    scb_delay_stats_t dlystats[AC_COUNT];
} scb_total_delay_stats_t;

typedef struct txdelay_stats {
    uint32 version;
    uint32 full_result; /* 0:Partial, 1:full */
    uint32 scb_cnt;     /* in:requested, out:returned */
    scb_total_delay_stats_t scb_delay_stats[1];
} txdelay_stats_t;

#define WL_TXDELAY_STATS_FIXED_SIZE                                            \
    (sizeof(txdelay_stats_t) +                                                 \
     (MAX_TXDELAY_STATS_SCBS - 1) * sizeof(scb_total_delay_stats_t))
enum { WNM_SERVICE_DMS = 1, WNM_SERVICE_FMS = 2, WNM_SERVICE_TFS = 3 };

/** Definitions for WNM/NPS TCLAS */
typedef struct wl_tclas {
    uint8 user_priority;
    uint8 fc_len;
    dot11_tclas_fc_t fc;
} wl_tclas_t;

#define WL_TCLAS_FIXED_SIZE OFFSETOF(wl_tclas_t, fc)

typedef struct wl_tclas_list {
    uint32 num;
    wl_tclas_t tclas[];
} wl_tclas_list_t;

/** Definitions for WNM/NPS Traffic Filter Service */
typedef struct wl_tfs_req {
    uint8 tfs_id;
    uint8 tfs_actcode;
    uint8 tfs_subelem_id;
    uint8 send;
} wl_tfs_req_t;

typedef struct wl_tfs_filter {
    uint8 status;     /**< Status returned by the AP */
    uint8 tclas_proc; /**< TCLAS processing value (0:and, 1:or)  */
    uint8 tclas_cnt;  /**< count of all wl_tclas_t in tclas array */
    uint8 tclas[1];   /**< VLA of wl_tclas_t */
} wl_tfs_filter_t;
#define WL_TFS_FILTER_FIXED_SIZE OFFSETOF(wl_tfs_filter_t, tclas)

typedef struct wl_tfs_fset {
    struct ether_addr
        ea;           /**< Address of AP/STA involved with this filter set */
    uint8 tfs_id;     /**< TFS ID field chosen by STA host */
    uint8 status;     /**< Internal status TFS_STATUS_xxx */
    uint8 actcode;    /**< Action code DOT11_TFS_ACTCODE_xxx */
    uint8 token;      /**< Token used in last request frame */
    uint8 notify;     /**< Notify frame sent/received because of this set */
    uint8 filter_cnt; /**< count of all wl_tfs_filter_t in filter array */
    uint8 filter[1];  /**< VLA of wl_tfs_filter_t */
} wl_tfs_fset_t;
#define WL_TFS_FSET_FIXED_SIZE OFFSETOF(wl_tfs_fset_t, filter)

enum {
    TFS_STATUS_DISABLED = 0,  /**< TFS filter set disabled by user */
    TFS_STATUS_DISABLING = 1, /**< Empty request just sent to AP */
    TFS_STATUS_VALIDATED =
        2, /**< Filter set validated by AP (but maybe not enabled!) */
    TFS_STATUS_VALIDATING = 3,  /**< Filter set just sent to AP */
    TFS_STATUS_NOT_ASSOC = 4,   /**< STA not associated */
    TFS_STATUS_NOT_SUPPORT = 5, /**< TFS not supported by AP */
    TFS_STATUS_DENIED =
        6, /**< Filter set refused by AP (=> all sets are disabled!) */
};

typedef struct wl_tfs_status {
    uint8 fset_cnt;        /**< count of all wl_tfs_fset_t in fset array */
    wl_tfs_fset_t fset[1]; /**< VLA of wl_tfs_fset_t */
} wl_tfs_status_t;

typedef struct wl_tfs_set {
    uint8 send;   /**< Immediatly register registered sets on AP side */
    uint8 tfs_id; /**< ID of a specific set (existing or new), or nul for all */
    uint8 actcode;    /**< Action code for this filter set */
    uint8 tclas_proc; /**< TCLAS processing operator for this filter set */
} wl_tfs_set_t;

typedef struct wl_tfs_term {
    uint8 del;    /**< Delete internal set once confirmation received */
    uint8 tfs_id; /**< ID of a specific set (existing), or nul for all */
} wl_tfs_term_t;

#define DMS_DEP_PROXY_ARP (1 << 0)

/* Definitions for WNM/NPS Directed Multicast Service */
enum {
    DMS_STATUS_DISABLED = 0,     /**< DMS desc disabled by user */
    DMS_STATUS_ACCEPTED = 1,     /**< Request accepted by AP */
    DMS_STATUS_NOT_ASSOC = 2,    /**< STA not associated */
    DMS_STATUS_NOT_SUPPORT = 3,  /**< DMS not supported by AP */
    DMS_STATUS_DENIED = 4,       /**< Request denied by AP */
    DMS_STATUS_TERM = 5,         /**< Request terminated by AP */
    DMS_STATUS_REMOVING = 6,     /**< Remove request just sent */
    DMS_STATUS_ADDING = 7,       /**< Add request just sent */
    DMS_STATUS_ERROR = 8,        /**< Non compliant AP behvior */
    DMS_STATUS_IN_PROGRESS = 9,  /**< Request just sent */
    DMS_STATUS_REQ_MISMATCH = 10 /**< Conditions for sending DMS req not met */
};

typedef struct wl_dms_desc {
    uint8 user_id;
    uint8 status;
    uint8 token;
    uint8 dms_id;
    uint8 tclas_proc;
    uint8 mac_len;   /**< length of all ether_addr in data array, 0 if STA */
    uint8 tclas_len; /**< length of all wl_tclas_t in data array */
    uint8 data[1]; /**< VLA of 'ether_addr' and 'wl_tclas_t' (in this order ) */
} wl_dms_desc_t;

#define WL_DMS_DESC_FIXED_SIZE OFFSETOF(wl_dms_desc_t, data)

typedef struct wl_dms_status {
    uint32 cnt;
    wl_dms_desc_t desc[1];
} wl_dms_status_t;

typedef struct wl_dms_set {
    uint8 send;
    uint8 user_id;
    uint8 tclas_proc;
} wl_dms_set_t;

typedef struct wl_dms_term {
    uint8 del;
    uint8 user_id;
} wl_dms_term_t;

typedef struct wl_service_term {
    uint8 service;
    union {
        wl_dms_term_t dms;
    } u;
} wl_service_term_t;

/** Definitions for WNM/NPS BSS Transistion */
#define WL_BSSTRANS_QUERY_VERSION_1 1
typedef struct wl_bsstrans_query {
    uint16 version;  /* structure  version */
    uint16 pad0;     /* padding for 4-byte allignment */
    wlc_ssid_t ssid; /* SSID of NBR elem to be queried for */
    uint8 reason;    /* Reason code of the BTQ */
    uint8 pad1[3];   /* padding for 4-byte allignment */
} wl_bsstrans_query_t;

#define BTM_QUERY_NBR_COUNT_MAX 16

#define WL_BTQ_NBR_LIST_VERSION_1 1
typedef struct wl_btq_nbr_list {
    uint16 version;                /* structure  version */
    uint8 count;                   /* No. of BTQ NBRs returned */
    uint8 pad;                     /* padding for 4-byte allignment */
    nbr_rpt_elem_t btq_nbt_elem[]; /* BTQ NBR elem in a BTQ NBR list */
} wl_btq_nbr_list_t;

typedef struct wl_bsstrans_req {
    uint16 tbtt;   /**< time of BSS to end of life, in unit of TBTT */
    uint16 dur;    /**< time of BSS to keep off, in unit of minute */
    uint8 reqmode; /**< request mode of BSS transition request */
    uint8 unicast; /**< request by unicast or by broadcast */
} wl_bsstrans_req_t;

enum {
    BSSTRANS_RESP_AUTO = 0,    /**< Currently equivalent to ENABLE */
    BSSTRANS_RESP_DISABLE = 1, /**< Never answer BSS Trans Req frames */
    BSSTRANS_RESP_ENABLE = 2,  /**< Always answer Req frames with preset data */
    BSSTRANS_RESP_WAIT =
        3, /**< Send ind, wait and/or send preset data (NOT IMPL) */
    BSSTRANS_RESP_IMMEDIATE =
        4 /**< After an ind, set data and send resp (NOT IMPL) */
};

typedef struct wl_bsstrans_resp {
    uint8 policy;
    uint8 status;
    uint8 delay;
    struct ether_addr target;
} wl_bsstrans_resp_t;

/* "wnm_bsstrans_policy" argument programs behavior after BSSTRANS Req
 * reception. BSS-Transition feature is used by multiple programs such as
 * NPS-PF, VE-PF, Band-steering, Hotspot 2.0 and customer requirements. Each PF
 * and its test plan mandates different behavior on receiving BSS-transition
 * request. To accomodate such divergent behaviors these policies have been
 * created.
 */
typedef enum {
    WL_BSSTRANS_POLICY_ROAM_ALWAYS =
        0, /**< Roam (or disassociate) in all cases */
    WL_BSSTRANS_POLICY_ROAM_IF_MODE =
        1, /**< Roam only if requested by Request Mode field */
    WL_BSSTRANS_POLICY_ROAM_IF_PREF =
        2, /**< Roam only if Preferred BSS provided */
    WL_BSSTRANS_POLICY_WAIT =
        3, /**< Wait for deauth and send Accepted status */
    WL_BSSTRANS_POLICY_PRODUCT =
        4, /**< Policy for real product use cases (Olympic) */
    WL_BSSTRANS_POLICY_PRODUCT_WBTEXT =
        5,                      /**< Policy for real product use cases (SS) */
    WL_BSSTRANS_POLICY_MBO = 6, /**< Policy for MBO certification */
    WL_BSSTRANS_POLICY_MAX = 7
} wnm_bsstrans_policy_type_t;

/** Definitions for WNM/NPS TIM Broadcast */
typedef struct wl_timbc_offset {
    int16 offset;         /**< offset in us */
    uint16 fix_intv;      /**< override interval sent from STA */
    uint16 rate_override; /**< use rate override to send high rate TIM broadcast
                             frame */
    uint8 tsf_present;    /**< show timestamp in TIM broadcast frame */
    uint8 PAD;
} wl_timbc_offset_t;

typedef struct wl_timbc_set {
    uint8 interval;  /**< Interval in DTIM wished or required. */
    uint8 flags;     /**< Bitfield described below */
    uint16 rate_min; /**< Minimum rate required for High/Low TIM frames.
                        Optionnal */
    uint16 rate_max; /**< Maximum rate required for High/Low TIM frames.
                        Optionnal */
} wl_timbc_set_t;

enum {
    WL_TIMBC_SET_TSF_REQUIRED =
        1,                        /**< Enable TIMBC only if TSF in TIM frames */
    WL_TIMBC_SET_NO_OVERRIDE = 2, /**< ... if AP does not override interval */
    WL_TIMBC_SET_PROXY_ARP = 4,   /**< ... if AP support Proxy ARP */
    WL_TIMBC_SET_DMS_ACCEPTED = 8 /**< ... if all DMS desc have been accepted */
};

typedef struct wl_timbc_status {
    uint8 status_sta; /**< Status from internal state machine (check below) */
    uint8 status_ap; /**< From AP response frame (check 8.4.2.86 from 802.11) */
    uint8 interval;
    uint8 pad;
    int32 offset;
    uint16 rate_high;
    uint16 rate_low;
} wl_timbc_status_t;

enum {
    WL_TIMBC_STATUS_DISABLE = 0, /**< TIMBC disabled by user */
    WL_TIMBC_STATUS_REQ_MISMATCH =
        1, /**< AP settings do no match user requirements */
    WL_TIMBC_STATUS_NOT_ASSOC = 2,   /**< STA not associated */
    WL_TIMBC_STATUS_NOT_SUPPORT = 3, /**< TIMBC not supported by AP */
    WL_TIMBC_STATUS_DENIED = 4,      /**< Req to disable TIMBC sent to AP */
    WL_TIMBC_STATUS_ENABLE = 5       /**< TIMBC enabled */
};

/** Definitions for PM2 Dynamic Fast Return To Sleep */
typedef struct wl_pm2_sleep_ret_ext {
    uint8 logic; /**< DFRTS logic: see WL_DFRTS_LOGIC_* below */
    uint8 PAD;
    uint16 low_ms;               /**< Low FRTS timeout */
    uint16 high_ms;              /**< High FRTS timeout */
    uint16 rx_pkts_threshold;    /**< switching threshold: # rx pkts */
    uint16 tx_pkts_threshold;    /**< switching threshold: # tx pkts */
    uint16 txrx_pkts_threshold;  /**< switching threshold: # (tx+rx) pkts */
    uint32 rx_bytes_threshold;   /**< switching threshold: # rx bytes */
    uint32 tx_bytes_threshold;   /**< switching threshold: # tx bytes */
    uint32 txrx_bytes_threshold; /**< switching threshold: # (tx+rx) bytes */
} wl_pm2_sleep_ret_ext_t;

#define WL_DFRTS_LOGIC_OFF 0 /**< Feature is disabled */
#define WL_DFRTS_LOGIC_OR 1  /**< OR all non-zero threshold conditions */
#define WL_DFRTS_LOGIC_AND 2 /**< AND all non-zero threshold conditions */

/* Values for the passive_on_restricted_mode iovar.  When set to non-zero, this
 * iovar disables automatic conversions of a channel from passively scanned to
 * actively scanned.  These values only have an effect for country codes such
 * as XZ where some 5 GHz channels are defined to be passively scanned.
 */
#define WL_PASSACTCONV_DISABLE_NONE                                            \
    0 /**< Enable permanent and temporary conversions */
#define WL_PASSACTCONV_DISABLE_ALL                                             \
    1 /**< Disable permanent and temporary conversions */
#define WL_PASSACTCONV_DISABLE_PERM 2 /**< Disable only permanent conversions  \
                                       */

/* Definitions for Reliable Multicast */
#define WL_RMC_CNT_VERSION 1
#define WL_RMC_TR_VERSION 1
#define WL_RMC_MAX_CLIENT 32
#define WL_RMC_FLAG_INBLACKLIST 1
#define WL_RMC_FLAG_ACTIVEACKER 2
#define WL_RMC_FLAG_RELMCAST 4
#define WL_RMC_MAX_TABLE_ENTRY 4

#define WL_RMC_VER 1
#define WL_RMC_INDEX_ACK_ALL 255
#define WL_RMC_NUM_OF_MC_STREAMS 4
#define WL_RMC_MAX_TRS_PER_GROUP 1
#define WL_RMC_MAX_TRS_IN_ACKALL 1
#define WL_RMC_ACK_MCAST0 0x02
#define WL_RMC_ACK_MCAST_ALL 0x01
#define WL_RMC_ACTF_TIME_MIN 300   /**< time in ms */
#define WL_RMC_ACTF_TIME_MAX 20000 /**< time in ms */
#define WL_RMC_MAX_NUM_TRS 32      /**< maximun transmitters allowed */
#define WL_RMC_ARTMO_MIN 350       /**< time in ms */
#define WL_RMC_ARTMO_MAX 40000     /**< time in ms */

/* RMC events in action frames */
enum rmc_opcodes {
    RELMCAST_ENTRY_OP_DISABLE = 0, /**< Disable multi-cast group */
    RELMCAST_ENTRY_OP_DELETE = 1,  /**< Delete multi-cast group */
    RELMCAST_ENTRY_OP_ENABLE = 2,  /**< Enable multi-cast group */
    RELMCAST_ENTRY_OP_ACK_ALL = 3  /**< Enable ACK ALL bit in AMT */
};

/* RMC operational modes */
enum rmc_modes {
    WL_RMC_MODE_RECEIVER = 0,    /**< Receiver mode by default */
    WL_RMC_MODE_TRANSMITTER = 1, /**< Transmitter mode using wl ackreq */
    WL_RMC_MODE_INITIATOR = 2    /**< Initiator mode using wl ackreq */
};

/** Each RMC mcast client info */
typedef struct wl_relmcast_client {
    uint8 flag; /**< status of client such as AR, R, or blacklisted */
    uint8 PAD;
    int16 rssi;             /**< rssi value of RMC client */
    struct ether_addr addr; /**< mac address of RMC client */
} wl_relmcast_client_t;

/** RMC Counters */
typedef struct wl_rmc_cnts {
    uint16 version;           /**< see definition of WL_CNT_T_VERSION */
    uint16 length;            /**< length of entire structure */
    uint16 dupcnt;            /**< counter for duplicate rmc MPDU */
    uint16 ackreq_err;        /**< counter for wl ackreq error    */
    uint16 af_tx_err;         /**< error count for action frame transmit   */
    uint16 null_tx_err;       /**< error count for rmc null frame transmit */
    uint16 af_unicast_tx_err; /**< error count for rmc unicast frame transmit */
    uint16 mc_no_amt_slot;    /**< No mcast AMT entry available */
    /* Unused. Keep for rom compatibility */
    uint16 mc_no_glb_slot;  /**< No mcast entry available in global table */
    uint16 mc_not_mirrored; /**< mcast group is not mirrored */
    uint16 mc_existing_tr;  /**< mcast group is already taken by transmitter */
    uint16 mc_exist_in_amt; /**< mcast group is already programmed in amt */
    /* Unused. Keep for rom compatibility */
    uint16 mc_not_exist_in_gbl;   /**< mcast group is not in global table */
    uint16 mc_not_exist_in_amt;   /**< mcast group is not in AMT table */
    uint16 mc_utilized;           /**< mcast addressed is already taken */
    uint16 mc_taken_other_tr;     /**< multi-cast addressed is already taken */
    uint32 rmc_rx_frames_mac;     /**< no of mc frames received from mac */
    uint32 rmc_tx_frames_mac;     /**< no of mc frames transmitted to mac */
    uint32 mc_null_ar_cnt;        /**< no. of times NULL AR is received */
    uint32 mc_ar_role_selected;   /**< no. of times took AR role */
    uint32 mc_ar_role_deleted;    /**< no. of times AR role cancelled */
    uint32 mc_noacktimer_expired; /**< no. of times noack timer expired */
    uint16 mc_no_wl_clk; /**< no wl clk detected when trying to access amt */
    uint16
        mc_tr_cnt_exceeded; /**< No of transmitters in the network exceeded */
} wl_rmc_cnts_t;

/** RMC Status */
typedef struct wl_relmcast_st {
    uint8 ver; /**< version of RMC */
    uint8 num; /**< number of clients detected by transmitter */
    wl_relmcast_client_t clients[WL_RMC_MAX_CLIENT];
    uint16 err;       /**< error status (used in infra) */
    uint16 actf_time; /**< action frame time period */
} wl_relmcast_status_t;

/** Entry for each STA/node */
typedef struct wl_rmc_entry {
    /* operation on multi-cast entry such add,
     * delete, ack-all
     */
    int8 flag;
    struct ether_addr addr; /**< multi-cast group mac address */
} wl_rmc_entry_t;

/** RMC table */
typedef struct wl_rmc_entry_table {
    uint8 index;  /**< index to a particular mac entry in table */
    uint8 opcode; /**< opcodes or operation on entry */
    wl_rmc_entry_t entry[WL_RMC_MAX_TABLE_ENTRY];
} wl_rmc_entry_table_t;

typedef struct wl_rmc_trans_elem {
    struct ether_addr tr_mac; /**< transmitter mac */
    struct ether_addr ar_mac; /**< ar mac */
    uint16 artmo;             /**< AR timeout */
    uint8 amt_idx;            /**< amt table entry */
    uint8 PAD;
    uint16 flag; /**< entry will be acked, not acked, programmed, full etc */
} wl_rmc_trans_elem_t;

/** RMC transmitters */
typedef struct wl_rmc_trans_in_network {
    uint8 ver;    /**< version of RMC */
    uint8 num_tr; /**< number of transmitters in the network */
    wl_rmc_trans_elem_t trs[WL_RMC_MAX_NUM_TRS];
} wl_rmc_trans_in_network_t;

/** To update vendor specific ie for RMC */
typedef struct wl_rmc_vsie {
    uint8 oui[DOT11_OUI_LEN];
    uint8 PAD;
    uint16 payload; /**< IE Data Payload */
} wl_rmc_vsie_t;

/* structures  & defines for proximity detection  */
enum proxd_method {
    PROXD_UNDEFINED_METHOD = 0,
    PROXD_RSSI_METHOD = 1,
    PROXD_TOF_METHOD = 2
};

/* structures for proximity detection device role */
#define WL_PROXD_MODE_DISABLE 0
#define WL_PROXD_MODE_NEUTRAL 1
#define WL_PROXD_MODE_INITIATOR 2
#define WL_PROXD_MODE_TARGET 3

#define WL_PROXD_ACTION_STOP 0
#define WL_PROXD_ACTION_START 1

#define WL_PROXD_FLAG_TARGET_REPORT 0x1
#define WL_PROXD_FLAG_REPORT_FAILURE 0x2
#define WL_PROXD_FLAG_INITIATOR_REPORT 0x4
#define WL_PROXD_FLAG_NOCHANSWT 0x8
#define WL_PROXD_FLAG_NETRUAL 0x10
#define WL_PROXD_FLAG_INITIATOR_RPTRTT 0x20
#define WL_PROXD_FLAG_ONEWAY 0x40
#define WL_PROXD_FLAG_SEQ_EN 0x80

#define WL_PROXD_SETFLAG_K 0x1
#define WL_PROXD_SETFLAG_N 0x2
#define WL_PROXD_SETFLAG_S 0x4

#define WL_PROXD_SETFLAG_K 0x1
#define WL_PROXD_SETFLAG_N 0x2
#define WL_PROXD_SETFLAG_S 0x4

#define WL_PROXD_RANDOM_WAKEUP 0x8000
#define WL_PROXD_MAXREPORT 8

typedef struct wl_proxd_iovar {
    uint16 method; /**< Proximity Detection method */
    uint16 mode;   /**< Mode (neutral, initiator, target) */
} wl_proxd_iovar_t;

/*
 * structures for proximity detection parameters
 * consists of two parts, common and method specific params
 * common params should be placed at the beginning
 */

typedef struct wl_proxd_params_common {
    chanspec_t chanspec; /**< channel spec */
    int16 tx_power;  /**< tx power of Proximity Detection(PD) frames (in dBm) */
    uint16 tx_rate;  /**< tx rate of PD rames  (in 500kbps units) */
    uint16 timeout;  /**< timeout value */
    uint16 interval; /**< interval between neighbor finding attempts (in TU) */
    uint16 duration; /**< duration of neighbor finding attempts (in ms) */
} wl_proxd_params_common_t;

typedef struct wl_proxd_params_rssi_method {
    chanspec_t chanspec; /**< chanspec for home channel */
    int16 tx_power;      /**< tx power of Proximity Detection frames (in dBm) */
    uint16 tx_rate;      /**< tx rate of PD frames, 500kbps units */
    uint16 timeout;  /**< state machine wait timeout of the frames (in ms) */
    uint16 interval; /**< interval between neighbor finding attempts (in TU) */
    uint16 duration; /**< duration of neighbor finding attempts (in ms) */
    /* method specific ones go after this line */
    int16 rssi_thresh;    /**< RSSI threshold (in dBm) */
    uint16 maxconvergtmo; /**< max wait converge timeout (in ms) */
} wl_proxd_params_rssi_method_t;

#define Q1_NS 25 /**< Q1 time units */

#define TOF_BW_NUM 3 /**< number of bandwidth that the TOF can support */
#define TOF_BW_SEQ_NUM (TOF_BW_NUM + 2) /* number of total index */
enum tof_bw_index {
    TOF_BW_20MHZ_INDEX = 0,
    TOF_BW_40MHZ_INDEX = 1,
    TOF_BW_80MHZ_INDEX = 2,
    TOF_BW_SEQTX_INDEX = 3,
    TOF_BW_SEQRX_INDEX = 4
};

#define BANDWIDTH_BASE 20 /**< base value of bandwidth */
#define TOF_BW_20MHZ (BANDWIDTH_BASE << TOF_BW_20MHZ_INDEX)
#define TOF_BW_40MHZ (BANDWIDTH_BASE << TOF_BW_40MHZ_INDEX)
#define TOF_BW_80MHZ (BANDWIDTH_BASE << TOF_BW_80MHZ_INDEX)
#define TOF_BW_10MHZ 10

#define NFFT_BASE 64 /**< base size of fft */
#define TOF_NFFT_20MHZ (NFFT_BASE << TOF_BW_20MHZ_INDEX)
#define TOF_NFFT_40MHZ (NFFT_BASE << TOF_BW_40MHZ_INDEX)
#define TOF_NFFT_80MHZ (NFFT_BASE << TOF_BW_80MHZ_INDEX)

typedef struct wl_proxd_params_tof_method {
    chanspec_t chanspec; /**< chanspec for home channel */
    int16 tx_power;  /**< tx power of Proximity Detection(PD) frames (in dBm) */
    uint16 tx_rate;  /**< tx rate of PD rames  (in 500kbps units) */
    uint16 timeout;  /**< state machine wait timeout of the frames (in ms) */
    uint16 interval; /**< interval between neighbor finding attempts (in TU) */
    uint16 duration; /**< duration of neighbor finding attempts (in ms) */
    /* specific for the method go after this line */
    struct ether_addr tgt_mac; /**< target mac addr for TOF method */
    uint16 ftm_cnt;            /**< number of the frames txed by initiator */
    uint16 retry_cnt; /**< number of retransmit attampts for ftm frames */
    int16 vht_rate;   /**< ht or vht rate */
    /* add more params required for other methods can be added here  */
} wl_proxd_params_tof_method_t;

typedef struct wl_proxd_seq_config {
    int16 N_tx_log2;
    int16 N_rx_log2;
    int16 N_tx_scale;
    int16 N_rx_scale;
    int16 w_len;
    int16 w_offset;
} wl_proxd_seq_config_t;

#define WL_PROXD_TUNE_VERSION_1 1
#define WL_PROXD_TUNE_VERSION_2 2
#include <packed_section_start.h>
/* For legacy ranging target (e.g. 43430, 43342) */
typedef BWL_PRE_PACKED_STRUCT struct wl_proxd_params_tof_tune_v1 {
    uint32 version;
    uint32 Ki;                    /**< h/w delay K factor for initiator */
    uint32 Kt;                    /**< h/w delay K factor for target */
    int16 vhtack;                 /**< enable/disable VHT ACK */
    int16 N_log2[TOF_BW_SEQ_NUM]; /**< simple threshold crossing */
    int16 w_offset[TOF_BW_NUM]; /**< offset of threshold crossing window(per BW)
                                 */
    int16 w_len[TOF_BW_NUM]; /**< length of threshold crossing window(per BW) */
    int32 maxDT;             /**< max time difference of T4/T1 or T3/T2 */
    int32 minDT;             /**< min time difference of T4/T1 or T3/T2 */
    uint8 totalfrmcnt; /**< total count of transfered measurement frames */
    uint16 rsv_media;  /**< reserve media value for TOF */
    uint32 flags;      /**< flags */
    uint8 core;        /**< core to use for tx */
    uint8 setflags;    /* set flags of K, N. S values  */
    int16 N_scale[TOF_BW_SEQ_NUM]; /**< simple threshold crossing */
    uint8 sw_adj; /**< enable sw assisted timestamp adjustment */
    uint8 hw_adj; /**< enable hw assisted timestamp adjustment */
    uint8 seq_en; /**< enable ranging sequence */
    uint8
        ftm_cnt[TOF_BW_SEQ_NUM]; /**< number of ftm frames based on bandwidth */
    int16 N_log2_2g;  /**< simple threshold crossing for 2g channel */
    int16 N_scale_2g; /**< simple threshold crossing for 2g channel */
    wl_proxd_seq_config_t seq_5g20;
    wl_proxd_seq_config_t seq_2g20; /* Thresh crossing params for 2G Sequence */
    uint16 bitflip_thresh;          /* bitflip threshold */
    uint16 snr_thresh;              /* SNR threshold */
    int8 recv_2g_thresh;            /* 2g recieve sensitivity threshold */
    uint32 acs_gdv_thresh;
    int8 acs_rssi_thresh;
    uint8 smooth_win_en;
    int32 emu_delay;
} BWL_POST_PACKED_STRUCT wl_proxd_params_tof_tune_v1_t;
#include <packed_section_end.h>

#include <packed_section_start.h>
/* For legacy ranging initiator (including 4364) */
typedef BWL_PRE_PACKED_STRUCT struct wl_proxd_params_tof_tune_v2 {
    uint32 version;
    uint32 Ki;                    /**< h/w delay K factor for initiator */
    uint32 Kt;                    /**< h/w delay K factor for target */
    int16 vhtack;                 /**< enable/disable VHT ACK */
    int16 N_log2[TOF_BW_SEQ_NUM]; /**< simple threshold crossing */
    int16 w_offset[TOF_BW_NUM]; /**< offset of threshold crossing window(per BW)
                                 */
    int16 w_len[TOF_BW_NUM]; /**< length of threshold crossing window(per BW) */
    int32 maxDT;             /**< max time difference of T4/T1 or T3/T2 */
    int32 minDT;             /**< min time difference of T4/T1 or T3/T2 */
    uint8 totalfrmcnt; /**< total count of transfered measurement frames */
    uint16 rsv_media;  /**< reserve media value for TOF */
    uint32 flags;      /**< flags */
    uint8 core;        /**< core to use for tx */
    uint8 setflags;    /* set flags of K, N. S values  */
    int16 N_scale[TOF_BW_SEQ_NUM]; /**< simple threshold crossing */
    uint8 sw_adj; /**< enable sw assisted timestamp adjustment */
    uint8 hw_adj; /**< enable hw assisted timestamp adjustment */
    uint8 seq_en; /**< enable ranging sequence */
    uint8
        ftm_cnt[TOF_BW_SEQ_NUM]; /**< number of ftm frames based on bandwidth */
    int16 N_log2_2g;  /**< simple threshold crossing for 2g channel */
    int16 N_scale_2g; /**< simple threshold crossing for 2g channel */
    wl_proxd_seq_config_t seq_5g20;
    wl_proxd_seq_config_t seq_2g20; /* Thresh crossing params for 2G Sequence */
    uint16 bitflip_thresh;          /* bitflip threshold */
    uint16 snr_thresh;              /* SNR threshold */
    int8 recv_2g_thresh;            /* 2g recieve sensitivity threshold */
    uint32 acs_gdv_thresh;
    int8 acs_rssi_thresh;
    uint8 smooth_win_en;
    int32 acs_gdmm_thresh;
    int8 acs_delta_rssi_thresh;
    int32 emu_delay;
    uint8 core_mask; /* core mask selection */
} BWL_POST_PACKED_STRUCT wl_proxd_params_tof_tune_v2_t;
#include <packed_section_end.h>

#define WL_PROXD_TUNE_VERSION_3 3
/* Future ranging support */
typedef struct wl_proxd_params_tof_tune_v3 {
    uint16 version;
    uint16 len;
    uint32 Ki;    /**< h/w delay K factor for initiator */
    uint32 Kt;    /**< h/w delay K factor for target */
    int16 vhtack; /**< enable/disable VHT ACK */
    uint16 PAD;
    int16 N_log2[TOF_BW_SEQ_NUM]; /**< simple threshold crossing */
    uint16 PAD;
    int16 w_offset[TOF_BW_NUM]; /**< offset of threshold crossing window(per BW)
                                 */
    uint16 PAD;
    int16 w_len[TOF_BW_NUM]; /**< length of threshold crossing window(per BW) */
    uint16 PAD;
    int32 maxDT;       /**< max time difference of T4/T1 or T3/T2 */
    int32 minDT;       /**< min time difference of T4/T1 or T3/T2 */
    uint8 totalfrmcnt; /**< total count of transfered measurement frames */
    uint8 PAD[3];
    uint16 rsv_media; /**< reserve media value for TOF */
    uint16 PAD;
    uint32 flags;   /**< flags */
    uint8 core;     /**< core to use for tx */
    uint8 setflags; /* set flags of K, N. S values  */
    uint16 PAD;
    int16 N_scale[TOF_BW_SEQ_NUM]; /**< simple threshold crossing */
    uint8 sw_adj; /**< enable sw assisted timestamp adjustment */
    uint8 hw_adj; /**< enable hw assisted timestamp adjustment */
    uint8 seq_en; /**< enable ranging sequence */
    uint8 PAD[3];
    uint8
        ftm_cnt[TOF_BW_SEQ_NUM]; /**< number of ftm frames based on bandwidth */
    uint8 PAD[3];
    int16 N_log2_2g;  /**< simple threshold crossing for 2g channel */
    int16 N_scale_2g; /**< simple threshold crossing for 2g channel */
    wl_proxd_seq_config_t seq_5g20;
    wl_proxd_seq_config_t seq_2g20; /* Thresh crossing params for 2G Sequence */
    uint16 bitflip_thresh;          /* bitflip threshold */
    uint16 snr_thresh;              /* SNR threshold */
    int8 recv_2g_thresh;            /* 2g recieve sensitivity threshold */
    uint8 PAD[3];
    uint32 acs_gdv_thresh;
    int8 acs_rssi_thresh;
    uint8 smooth_win_en;
    uint16 PAD;
    int32 acs_gdmm_thresh;
    int8 acs_delta_rssi_thresh;
    uint8 PAD[3];
    int32 emu_delay;
    uint8 core_mask; /* core mask selection */
    uint8 PAD[3];
} wl_proxd_params_tof_tune_v3_t;

typedef struct wl_proxd_params_iovar {
    uint16 method; /**< Proximity Detection method */
    uint8 PAD[2];
    union {
        /* common params for pdsvc */
        wl_proxd_params_common_t cmn_params; /**< common parameters */
        /*  method specific */
        wl_proxd_params_rssi_method_t
            rssi_params;                         /**< RSSI method parameters */
        wl_proxd_params_tof_method_t tof_params; /**< TOF method parameters */
        /* tune parameters */
        wl_proxd_params_tof_tune_v3_t tof_tune; /**< TOF tune parameters */
    } u; /**< Method specific optional parameters */
} wl_proxd_params_iovar_t;

#define PROXD_COLLECT_GET_STATUS 0
#define PROXD_COLLECT_SET_STATUS 1
#define PROXD_COLLECT_QUERY_HEADER 2
#define PROXD_COLLECT_QUERY_DATA 3
#define PROXD_COLLECT_QUERY_DEBUG 4
#define PROXD_COLLECT_REMOTE_REQUEST 5
#define PROXD_COLLECT_DONE 6

typedef enum {
    WL_PROXD_COLLECT_METHOD_TYPE_DISABLE = 0x0,
    WL_PROXD_COLLECT_METHOD_TYPE_IOVAR = 0x1,
    WL_PROXD_COLLECT_METHOD_TYPE_EVENT = 0x2,
    WL_PROXD_COLLECT_METHOD_TYPE_EVENT_LOG = 0x4
} wl_proxd_collect_method_type_t;

typedef uint16
    wl_proxd_collect_method_t; /* query status: method to send proxd collect */

#include <packed_section_start.h>
typedef BWL_PRE_PACKED_STRUCT struct wl_proxd_collect_query {
    uint32 method; /**< method */
    uint8 request; /**< Query request. */
    uint8 status;  /**< bitmask 0 -- disable, 0x1 -- enable collection, */
    /* 0x2 -- Use generic event, 0x4 -- use event log */
    uint16 index; /**< The current frame index [0 to total_frames - 1]. */
    uint16 mode;  /**< Initiator or Target */
    uint8 busy;   /**< tof sm is busy */
    uint8 remote; /**< Remote collect data */
} BWL_POST_PACKED_STRUCT wl_proxd_collect_query_t;
#include <packed_section_end.h>

#include <packed_section_start.h>
typedef BWL_PRE_PACKED_STRUCT struct wl_proxd_collect_header {
    uint16 total_frames;             /**< The total frames for this collect. */
    uint16 nfft;                     /**< nfft value */
    uint16 bandwidth;                /**< bandwidth */
    uint16 channel;                  /**< channel number */
    uint32 chanspec;                 /**< channel spec */
    uint32 fpfactor;                 /**< avb timer value factor */
    uint16 fpfactor_shift;           /**< avb timer value shift bits */
    int32 distance;                  /**< distance calculated by fw */
    uint32 meanrtt;                  /**< mean of RTTs */
    uint32 modertt;                  /**< mode of RTTs */
    uint32 medianrtt;                /**< median of RTTs */
    uint32 sdrtt;                    /**< standard deviation of RTTs */
    uint32 clkdivisor;               /**< clock divisor */
    uint16 chipnum;                  /**< chip type */
    uint8 chiprev;                   /**< chip revision */
    uint8 phyver;                    /**< phy version */
    struct ether_addr localMacAddr;  /**< local mac address */
    struct ether_addr remoteMacAddr; /**< remote mac address */
    wl_proxd_params_tof_tune_v3_t params;
} BWL_POST_PACKED_STRUCT wl_proxd_collect_header_t;
#include <packed_section_end.h>

/* ifdef WL_NAN */
/*  ********************** NAN wl interface struct types and defs
 * ******************** */
/*
 * Uses new common IOVAR batch processing mechanism
 */

/*
 * NAN config control
 * Bits 0 - 23 can be set by host
 * Bits 24 - 31 - Internal use for firmware, host cannot set it
 */

/*
 * Bit 0 : If set to 1, means event uses nan bsscfg,
 * otherwise uses infra bsscfg. Default is using infra bsscfg
 */
#define WL_NAN_CTRL_ROUTE_EVENT_VIA_NAN_BSSCFG 0x000001
/* If set, discovery beacons are transmitted on 2G band */
#define WL_NAN_CTRL_DISC_BEACON_TX_2G 0x000002
/* If set, sync beacons are transmitted on 2G band */
#define WL_NAN_CTRL_SYNC_BEACON_TX_2G 0x000004
/* If set, discovery beacons are transmitted on 5G band */
#define WL_NAN_CTRL_DISC_BEACON_TX_5G 0x000008
/* If set, sync beacons are transmitted on 5G band */
#define WL_NAN_CTRL_SYNC_BEACON_TX_5G 0x000010
/* If set, auto datapath responses will be sent by FW */
#define WL_NAN_CTRL_AUTO_DPRESP 0x000020
/* If set, auto datapath confirms will be sent by FW */
#define WL_NAN_CTRL_AUTO_DPCONF 0x000040
/* If set, auto schedule responses will be sent by FW */
#define WL_NAN_CTRL_AUTO_SCHEDRESP 0x000080
/* If set, auto schedule confirms will be sent by FW */
#define WL_NAN_CTRL_AUTO_SCHEDCONF 0x000100
/* If set, proprietary rates are supported by FW */
#define WL_NAN_CTRL_PROP_RATE 0x000200
/* If set, service awake_dw overrides global dev awake_dw */
#define WL_NAN_CTRL_SVC_OVERRIDE_DEV_AWAKE_DW 0x000400
/* If set, merge scan will be disabled */
#define WL_NAN_CTRL_SCAN_DISABLE 0x000800
/* If set, power save will be disabled */
#define WL_NAN_CTRL_POWER_SAVE_DISABLE 0x001000
/* If set, device will merge to configured CID only */
#define WL_NAN_CTRL_MERGE_CONF_CID_ONLY 0x002000
/* If set, 5g core will be brought down in single band NAN */
#define WL_NAN_CTRL_5G_SLICE_POWER_OPT 0x004000
#define WL_NAN_CTRL_DUMP_HEAP 0x008000
/* If set, host generates and assign ndp id for ndp sessions */
#define WL_NAN_CTRL_HOST_GEN_NDPID 0x010000
/* If set, nan ndp inactivity watchdog will be activated */
#define WL_NAN_CTRL_DELETE_INACTIVE_PEERS 0x020000
/* If set, nan assoc coex will be activated */
#define WL_NAN_CTRL_INFRA_ASSOC_COEX 0x040000
/* If set, dam will accept all NDP/RNG request from the peer including counter
 */
#define WL_NAN_CTRL_DAM_ACCEPT_ALL 0x080000
/* If set, nan mac ignores role for tx discovery beacon for periodic config */
#define WL_NAN_CTRL_FASTDISC_IGNO_ROLE 0x100000
/* If set, include NA in NAN beacons (disc beacons for now) */
#define WL_NAN_CTRL_INCL_NA_IN_BCNS 0x200000
/* If set, host assist will be enabled */
#define WL_NAN_CTRL_HOST_ASSIST 0x400000
/* If set, host configures NDI associated with the service */
#define WL_NAN_CTRL_HOST_CFG_SVC_NDI 0x800000

/* Value when all host-configurable bits set */
#define WL_NAN_CTRL_MAX_MASK 0xFFFFFF
#define WL_NAN_CFG_CTRL_FW_BITS 8

/* Last 8-bits are firmware controlled bits.
 * Bit 31:
 * If set - indicates that NAN initialization is successful
 * Bit 30:
 * If set - indicates that NAN MAC cfg creation is successful
 *
 * NOTE: These are only ready-only bits for host.
 * All sets to these bits from host are masked off
 */
#define WL_NAN_PROTO_INIT_DONE (1 << 31)
#define WL_NAN_CFG_CREATE_DONE (1 << 30)

#define WL_NAN_GET_PROTO_INIT_STATUS(x)                                        \
    (((x)&WL_NAN_PROTO_INIT_DONE) ? TRUE : FALSE)
#define WL_NAN_CLEAR_PROTO_INIT_STATUS(x) ((x) &= ~WL_NAN_PROTO_INIT_DONE)
#define WL_NAN_SET_PROTO_INIT_STATUS(x) ((x) |= (WL_NAN_PROTO_INIT_DONE))

#define WL_NAN_GET_CFG_CREATE_STATUS(x)                                        \
    (((x)&WL_NAN_CFG_CREATE_DONE) ? TRUE : FALSE)
#define WL_NAN_CLEAR_CFG_CREATE_STATUS(x) ((x) &= ~WL_NAN_CFG_CREATE_DONE)
#define WL_NAN_SET_CFG_CREATE_STATUS(x) ((x) |= (WL_NAN_CFG_CREATE_DONE))

#define WL_NAN_IOCTL_VERSION 0x2
/* < some sufficient ioc buff size for our module */
#define WL_NAN_IOC_BUFSZ 256
/* some sufficient ioc buff size for dump commands */
#define WL_NAN_IOC_BUFSZ_EXT 1024
#define WL_NAN_MAX_SIDS_IN_BEACONS 127 /* Max allowed SIDs */
#define WL_NAN_MASTER_RANK_LEN 8
#define WL_NAN_RANGE_LIMITED 0x0040 /* Publish/Subscribe flags */

/** The service hash (service id) is exactly this many bytes. */
#define WL_NAN_SVC_HASH_LEN 6
#define WL_NAN_HASHES_PER_BLOOM                                                \
    4 /** Number of hash functions per bloom filter */

/* no. of max last disc results */
#define WL_NAN_MAX_DISC_RESULTS 3

/* Max len of Rx and Tx filters */
#define WL_NAN_MAX_SVC_MATCH_FILTER_LEN 255

/* Max service name len */
#define WL_NAN_MAX_SVC_NAME_LEN 32

/* Type of Data path connection */
#define WL_NAN_DP_TYPE_UNICAST 0
#define WL_NAN_DP_TYPE_MULTICAST 1

/* MAX security params length PMK field */
#define WL_NAN_NCS_SK_PMK_LEN 32

/* Post disc attr ID type */
typedef uint8 wl_nan_post_disc_attr_id_t;

/*
 * Component IDs
 */
typedef enum {
    WL_NAN_COMPID_CONFIG = 1,
    WL_NAN_COMPID_ELECTION = 2,
    WL_NAN_COMPID_SD = 3,
    WL_NAN_COMPID_TIMESYNC = 4,
    WL_NAN_COMPID_DATA_PATH = 5,
    WL_NAN_COMPID_DEBUG = 15 /* Keep this at the end */
} wl_nan_comp_id_t;

#define WL_NAN_COMP_SHIFT 8
#define WL_NAN_COMP_MASK(_c) (0x0F & ((uint8)(_c)))
#define WL_NAN_COMP_ID(_c) (WL_NAN_COMP_MASK(_c) << WL_NAN_COMP_SHIFT)

/* NAN Events */

/** Instance ID type (unique identifier) */
typedef uint8 wl_nan_instance_id_t;

/* Publish sent for a subscribe */
/* WL_NAN_EVENT_REPLIED */

typedef struct wl_nan_ev_replied {
    struct ether_addr sub_mac;   /* Subscriber MAC */
    wl_nan_instance_id_t pub_id; /* Publisher Instance ID */
    uint8 sub_id;                /* Subscriber ID */
    int8 sub_rssi;               /* Subscriber RSSI */
    uint8 pad[3];
} wl_nan_ev_replied_t;

typedef struct wl_nan_event_replied {
    struct ether_addr sub_mac;   /* Subscriber MAC */
    wl_nan_instance_id_t pub_id; /* Publisher Instance ID */
    uint8 sub_id;                /* Subscriber ID */
    int8 sub_rssi;               /* Subscriber RSSI */
    uint8 attr_num;
    uint16 attr_list_len; /* sizeof attributes attached to payload */
    uint8 attr_list[0];   /* attributes payload */
} wl_nan_event_replied_t;

/* NAN Tx status of transmitted frames */
#define WL_NAN_TXS_FAILURE 0
#define WL_NAN_TXS_SUCCESS 1

/* NAN frame types */
enum wl_nan_frame_type {
    /* discovery frame types */
    WL_NAN_FRM_TYPE_PUBLISH = 1,
    WL_NAN_FRM_TYPE_SUBSCRIBE = 2,
    WL_NAN_FRM_TYPE_FOLLOWUP = 3,

    /* datapath frame types */
    WL_NAN_FRM_TYPE_DP_REQ = 4,
    WL_NAN_FRM_TYPE_DP_RESP = 5,
    WL_NAN_FRM_TYPE_DP_CONF = 6,
    WL_NAN_FRM_TYPE_DP_INSTALL = 7,
    WL_NAN_FRM_TYPE_DP_END = 8,

    /* schedule frame types */
    WL_NAN_FRM_TYPE_SCHED_REQ = 9,
    WL_NAN_FRM_TYPE_SCHED_RESP = 10,
    WL_NAN_FRM_TYPE_SCHED_CONF = 11,
    WL_NAN_FRM_TYPE_SCHED_UPD = 12,

    /* ranging frame types */
    WL_NAN_FRM_TYPE_RNG_REQ = 13,
    WL_NAN_FRM_TYPE_RNG_RESP = 14,
    WL_NAN_FRM_TYPE_RNG_TERM = 15,
    WL_NAN_FRM_TYPE_RNG_REPORT = 16,

    WL_NAN_FRM_TYPE_UNSOLICIT_SDF = 17,
    WL_NAN_FRM_TYPE_INVALID
};
typedef uint8 wl_nan_frame_type_t;

/* NAN Reason codes for tx status */
enum wl_nan_txs_reason_codes {
    WL_NAN_REASON_SUCCESS = 1,         /* NAN status success */
    WL_NAN_REASON_TIME_OUT = 2,        /* timeout reached */
    WL_NAN_REASON_DROPPED = 3,         /* pkt dropped due to internal failure */
    WL_NAN_REASON_MAX_RETRIES_DONE = 4 /* Max retries exceeded */
};

/* For NAN TX status */
typedef struct wl_nan_event_txs {
    uint8 status;      /* For TX status, success or failure */
    uint8 reason_code; /* to identify reason when status is failure */
    uint16 host_seq;   /* seq num to keep track of pkts sent by host */
    uint8 type;        /* wl_nan_frame_type_t */
    uint8 pad;
    uint16 opt_tlvs_len;
    uint8 opt_tlvs[];
} wl_nan_event_txs_t;

/* SD transmit pkt's event status is sent as optional tlv in wl_nan_event_txs_t
 */
typedef struct wl_nan_event_sd_txs {
    uint8 inst_id; /* Publish or subscribe instance id */
    uint8 req_id;  /* Requestor instance id */
} wl_nan_event_sd_txs_t;

/* nanho fsm tlv WL_NAN_XTLV_NANHO_OOB_TXS(0x0b0a) */
typedef struct wl_nan_event_nanho_txs {
    uint32 fsm_id; /* nho fsm id */
    uint16 seq_id; /* nho seq id */
    uint16 pad;
} wl_nan_event_nanho_txs_t;

/* Subscribe or Publish instance Terminated */

/* WL_NAN_EVENT_TERMINATED */

#define NAN_SD_TERM_REASON_TIMEOUT 1
#define NAN_SD_TERM_REASON_HOSTREQ 2
#define NAN_SD_TERM_REASON_FWTERM 3
#define NAN_SD_TERM_REASON_FAIL 4

typedef struct wl_nan_ev_terminated {
    uint8 instance_id; /* publish / subscribe instance id */
    uint8 reason;      /* 1=timeout, 2=Host/IOVAR, 3=FW Terminated 4=Failure */
    uint8 svctype;     /* 0 - Publish, 0x1 - Subscribe */
    uint8 pad;         /* Align */
    uint32 tx_cnt;     /* Number of SDFs sent */
} wl_nan_ev_terminated_t;

/* Follow up received against a pub / subscr */
/* WL_NAN_EVENT_RECEIVE */

typedef struct wl_nan_ev_receive {
    struct ether_addr remote_addr; /* Peer NAN device MAC */
    uint8 local_id;                /* Local subscribe or publish ID */
    uint8 remote_id;               /* Remote subscribe or publish ID */
    int8 fup_rssi;
    uint8 attr_num;
    uint16 attr_list_len; /* sizeof attributes attached to payload */
    uint8 attr_list[0];   /* attributes payload */
} wl_nan_ev_receive_t;

/* WL_NAN_EVENT_DISC_CACHE_TIMEOUT */
#define WL_NAN_DISC_CACHE_EXPIRY_ENTRIES_MAX 8

typedef struct wl_nan_disc_expired_cache_entry {
    uint8 l_sub_id;               /* local sub instance_id */
    uint8 r_pub_id;               /* remote-matched pub instance_id */
    struct ether_addr r_nmi_addr; /* remote-matched pub nmi addr */
} wl_nan_disc_expired_cache_entry_t;

typedef struct wl_nan_ev_disc_cache_timeout {
    uint16 count; /* no. of expired cache entries */
    uint16 pad;
    wl_nan_disc_expired_cache_entry_t cache_exp_list[];
} wl_nan_ev_disc_cache_timeout_t;

/* For NAN event mask extention */
#define WL_NAN_EVMASK_EXTN_VER 1
#define WL_NAN_EVMASK_EXTN_LEN 16 /* 16*8 = 128 masks supported */

typedef struct wl_nan_event_extn {
    uint8 ver;
    uint8 pad;
    uint16 len;
    uint8 evmask[];
} wl_nan_evmask_extn_t;

/* WL_NAN_XTLV_DATA_DP_TXS */

typedef struct wl_nan_data_dp_txs {
    uint8 ndp_id;
    uint8 pad;
    struct ether_addr indi; /* initiator ndi */
} wl_nan_data_dp_txs_t;

/* WL_NAN_XTLV_RNG_TXS */

typedef struct wl_nan_range_txs {
    uint8 range_id;
    uint8 pad[3];
} wl_nan_range_txs_t;

#define NAN_MAX_BANDS 2

/*
 * TLVs - Below XTLV definitions will be deprecated
 * in due course (soon as all other branches update
 * to the comp ID based XTLVs listed below).
 */
enum wl_nan_cmd_xtlv_id {
    WL_NAN_XTLV_MAC_ADDR = 0x120,
    WL_NAN_XTLV_MATCH_RX = 0x121,
    WL_NAN_XTLV_MATCH_TX = 0x122,
    WL_NAN_XTLV_SVC_INFO = 0x123,
    WL_NAN_XTLV_SVC_NAME = 0x124,
    WL_NAN_XTLV_SR_FILTER = 0x125,
    WL_NAN_XTLV_FOLLOWUP = 0x126,
    WL_NAN_XTLV_SVC_LIFE_COUNT = 0x127,
    WL_NAN_XTLV_AVAIL = 0x128,
    WL_NAN_XTLV_SDF_RX = 0x129,
    WL_NAN_XTLV_SDE_CONTROL = 0x12a,
    WL_NAN_XTLV_SDE_RANGE_LIMIT = 0x12b,
    WL_NAN_XTLV_NAN_AF = 0x12c,
    WL_NAN_XTLV_SD_TERMINATE = 0x12d,
    WL_NAN_XTLV_CLUSTER_ID = 0x12e,
    WL_NAN_XTLV_PEER_RSSI = 0x12f,
    WL_NAN_XTLV_BCN_RX = 0x130,
    WL_NAN_XTLV_REPLIED = 0x131,      /* Publish sent for a subscribe */
    WL_NAN_XTLV_RECEIVED = 0x132,     /* FUP Received */
    WL_NAN_XTLV_DISC_RESULTS = 0x133, /* Discovery results */
    WL_NAN_XTLV_TXS = 0x134           /* TX status */
};

#define WL_NAN_CMD_GLOBAL 0x00
#define WL_NAN_CMD_CFG_COMP_ID 0x01
#define WL_NAN_CMD_ELECTION_COMP_ID 0x02
#define WL_NAN_CMD_SD_COMP_ID 0x03
#define WL_NAN_CMD_SYNC_COMP_ID 0x04
#define WL_NAN_CMD_DATA_COMP_ID 0x05
#define WL_NAN_CMD_DAM_COMP_ID 0x06
#define WL_NAN_CMD_RANGE_COMP_ID 0x07
#define WL_NAN_CMD_GENERIC_COMP_ID 0x08
#define WL_NAN_CMD_SCHED_COMP_ID 0x09
#define WL_NAN_CMD_NSR_COMP_ID 0x0a   /* NAN Save Restore */
#define WL_NAN_CMD_NANHO_COMP_ID 0x0b /* NAN Host offload */
#define WL_NAN_CMD_DBG_COMP_ID 0x0f

#define WL_NAN_CMD_COMP_SHIFT 8
#define NAN_CMD(x, y) (((x) << WL_NAN_CMD_COMP_SHIFT) | (y))

/*
 * Module based NAN TLV IDs
 */
typedef enum wl_nan_tlv {
    WL_NAN_XTLV_CFG_MATCH_RX = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x01),
    WL_NAN_XTLV_CFG_MATCH_TX = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x02),
    WL_NAN_XTLV_CFG_SR_FILTER = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x03),
    WL_NAN_XTLV_CFG_SVC_NAME = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x04),
    WL_NAN_XTLV_CFG_NAN_STATUS = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x05),
    WL_NAN_XTLV_CFG_SVC_LIFE_COUNT = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x06),
    WL_NAN_XTLV_CFG_SVC_HASH = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x07),
    WL_NAN_XTLV_CFG_SEC_CSID =
        NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x08), /* Security CSID */
    WL_NAN_XTLV_CFG_SEC_PMK =
        NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x09), /* Security PMK */
    WL_NAN_XTLV_CFG_SEC_PMKID = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x0A),
    WL_NAN_XTLV_CFG_SEC_SCID = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x0B),
    WL_NAN_XTLV_CFG_VNDR_PAYLOAD = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x0C),
    WL_NAN_XTLV_CFG_HOST_INDPID = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x0D),
    /* when host ndpid is used */
    WL_NAN_XTLV_CFG_MAC_ADDR = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x0E),
    /* fast disc time bitmap config */
    WL_NAN_XTLV_CFG_FDISC_TBMP = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x0F),

    WL_NAN_XTLV_SD_SVC_INFO = NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x01),
    WL_NAN_XTLV_SD_FOLLOWUP = NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x02),
    WL_NAN_XTLV_SD_SDF_RX = NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x03),
    WL_NAN_XTLV_SD_SDE_CONTROL = NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x04),
    WL_NAN_XTLV_SD_SDE_RANGE_LIMIT = NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x05),
    WL_NAN_XTLV_SD_NAN_AF = NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x06),
    WL_NAN_XTLV_SD_TERM = NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x07),
    WL_NAN_XTLV_SD_REPLIED =
        NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x08), /* Pub sent */
    WL_NAN_XTLV_SD_FUP_RECEIVED =
        NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x09), /* FUP Received */
    WL_NAN_XTLV_SD_DISC_RESULTS =
        NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x0A),                  /* Pub RX */
    WL_NAN_XTLV_SD_TXS = NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x0B), /* Tx status */
    WL_NAN_XTLV_SD_SDE_SVC_INFO = NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x0C),
    WL_NAN_XTLV_SD_SDE_SVC_UPD_IND = NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x0D),
    WL_NAN_XTLV_SD_SVC_NDI = NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x0E),
    WL_NAN_XTLV_SD_NDP_SPEC_INFO = NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x0F),
    WL_NAN_XTLV_SD_NDPE_TLV_LIST = NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x10),
    WL_NAN_XTLV_SD_NDL_QOS_UPD = NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x11),
    WL_NAN_XTLV_SD_DISC_CACHE_TIMEOUT = NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x12),
    WL_NAN_XTLV_SD_PEER_NMI = NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x13),

    WL_NAN_XTLV_SYNC_BCN_RX = NAN_CMD(WL_NAN_CMD_SYNC_COMP_ID, 0x01),
    WL_NAN_XTLV_EV_MR_CHANGED = NAN_CMD(WL_NAN_CMD_SYNC_COMP_ID, 0x02),

    WL_NAN_XTLV_DATA_DP_END = NAN_CMD(WL_NAN_CMD_DATA_COMP_ID, 0x01),
    WL_NAN_XTLV_DATA_DP_INFO = NAN_CMD(WL_NAN_CMD_DATA_COMP_ID, 0x02),
    WL_NAN_XTLV_DATA_DP_SEC_INST = NAN_CMD(WL_NAN_CMD_DATA_COMP_ID, 0x03),
    WL_NAN_XTLV_DATA_DP_TXS =
        NAN_CMD(WL_NAN_CMD_DATA_COMP_ID, 0x04), /* txs for dp */
    WL_NAN_XTLV_DATA_DP_OPAQUE_INFO = NAN_CMD(WL_NAN_CMD_DATA_COMP_ID, 0x05),
    WL_NAN_XTLV_RANGE_INFO = NAN_CMD(WL_NAN_CMD_RANGE_COMP_ID, 0x01),
    WL_NAN_XTLV_RNG_TXS = NAN_CMD(WL_NAN_CMD_RANGE_COMP_ID, 0x02),

    WL_NAN_XTLV_EV_SLOT_INFO = NAN_CMD(WL_NAN_CMD_DBG_COMP_ID, 0x01),
    WL_NAN_XTLV_EV_GEN_INFO = NAN_CMD(WL_NAN_CMD_DBG_COMP_ID, 0x02),
    WL_NAN_XTLV_CCA_STATS = NAN_CMD(WL_NAN_CMD_DBG_COMP_ID, 0x03),
    WL_NAN_XTLV_PER_STATS = NAN_CMD(WL_NAN_CMD_DBG_COMP_ID, 0x04),
    WL_NAN_XTLV_CHBOUND_INFO = NAN_CMD(WL_NAN_CMD_DBG_COMP_ID, 0x05),
    WL_NAN_XTLV_SLOT_STATS = NAN_CMD(WL_NAN_CMD_DBG_COMP_ID, 0x06),

    WL_NAN_XTLV_DAM_NA_ATTR =
        NAN_CMD(WL_NAN_CMD_DAM_COMP_ID, 0x01), /* na attr */
    WL_NAN_XTLV_HOST_ASSIST_REQ =
        NAN_CMD(WL_NAN_CMD_DAM_COMP_ID, 0x02), /* host assist */

    /* wl_nan_fw_cap_t */
    WL_NAN_XTLV_GEN_FW_CAP = NAN_CMD(WL_NAN_CMD_GENERIC_COMP_ID, 0x01),
    /* wl_nan_fw_cap_v2_t */
    WL_NAN_XTLV_GEN_FW_CAP_V2 = NAN_CMD(WL_NAN_CMD_GENERIC_COMP_ID, 0x02),

    WL_NAN_XTLV_SCHED_INFO = NAN_CMD(WL_NAN_CMD_SCHED_COMP_ID, 0x01),

    /* Nan Save-Restore XTLVs */
    WL_NAN_XTLV_NSR2_PEER = NAN_CMD(WL_NAN_CMD_NSR_COMP_ID, 0x21),
    WL_NAN_XTLV_NSR2_NDP = NAN_CMD(WL_NAN_CMD_NSR_COMP_ID, 0x22),

    /* Host offload XTLVs */
    WL_NAN_XTLV_NANHO_PEER_ENTRY = NAN_CMD(WL_NAN_CMD_NANHO_COMP_ID, 0x01),
    WL_NAN_XTLV_NANHO_DCAPLIST = NAN_CMD(WL_NAN_CMD_NANHO_COMP_ID, 0x02),
    WL_NAN_XTLV_NANHO_DCSLIST = NAN_CMD(WL_NAN_CMD_NANHO_COMP_ID, 0x03),
    WL_NAN_XTLV_NANHO_BLOB = NAN_CMD(WL_NAN_CMD_NANHO_COMP_ID, 0x04),
    WL_NAN_XTLV_NANHO_NDP_STATE = NAN_CMD(WL_NAN_CMD_NANHO_COMP_ID, 0x05),
    WL_NAN_XTLV_NANHO_FRM_TPLT = NAN_CMD(WL_NAN_CMD_NANHO_COMP_ID, 0x06),
    WL_NAN_XTLV_NANHO_OOB_NAF = NAN_CMD(WL_NAN_CMD_NANHO_COMP_ID, 0x07),
    WL_NAN_XTLV_NANHO_LOG_ERR_CTRL = NAN_CMD(WL_NAN_CMD_NANHO_COMP_ID, 0x08),
    WL_NAN_XTLV_NANHO_LOG_DBG_CTRL = NAN_CMD(WL_NAN_CMD_NANHO_COMP_ID, 0x09),
    WL_NAN_XTLV_NANHO_OOB_TXS = NAN_CMD(WL_NAN_CMD_NANHO_COMP_ID, 0x0A),
    WL_NAN_XTLV_NANHO_DCAP_ATTR = NAN_CMD(WL_NAN_CMD_NANHO_COMP_ID, 0x0B),
    WL_NAN_XTLV_NANHO_ELEM_ATTR = NAN_CMD(WL_NAN_CMD_NANHO_COMP_ID, 0x0C),
    WL_NAN_XTLV_NANHO_SEC_SA = NAN_CMD(WL_NAN_CMD_NANHO_COMP_ID, 0x0D)
} wl_nan_tlv_t;

/* Sub Module ID's for NAN */
enum {
    NAN_MAC = 0,        /* nan mac */
    NAN_DISC = 1,       /* nan discovery */
    NAN_DBG = 2,        /* nan debug */
    NAN_SCHED = 3,      /* nan sched */
    NAN_PEER_ENTRY = 4, /* nan peer entry */
    NAN_AVAIL = 5,      /* nan avail */
    NAN_DAM = 6,        /* nan dam */
    NAN_FSM = 7,        /* nan fsm registry */
    NAN_NDP = 8,        /* nan ndp */
    NAN_NDL = 9,        /* nan ndl */
    NAN_DP = 10,        /* nan dp core */
    NAN_RNG = 11,       /* nan ranging */
    NAN_SEC = 12,       /* nan sec */
    NAN_LAST = 13
};

enum wl_nan_sub_cmd_xtlv_id {
    /* Special command - Tag zero */
    WL_NAN_CMD_GLB_NAN_VER = NAN_CMD(WL_NAN_CMD_GLOBAL, 0x00),

    /* nan cfg sub-commands */

    WL_NAN_CMD_CFG_NAN_INIT = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x01),
    WL_NAN_CMD_CFG_ROLE = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x02),
    WL_NAN_CMD_CFG_HOP_CNT = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x03),
    WL_NAN_CMD_CFG_HOP_LIMIT = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x04),
    WL_NAN_CMD_CFG_WARMUP_TIME = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x05),
    WL_NAN_CMD_CFG_STATUS = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x06),
    WL_NAN_CMD_CFG_OUI = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x07),
    WL_NAN_CMD_CFG_COUNT = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x08),
    WL_NAN_CMD_CFG_CLEARCOUNT = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x09),
    WL_NAN_CMD_CFG_CHANNEL = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x0A),
    WL_NAN_CMD_CFG_BAND = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x0B),
    WL_NAN_CMD_CFG_CID = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x0C),
    WL_NAN_CMD_CFG_IF_ADDR = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x0D),
    WL_NAN_CMD_CFG_BCN_INTERVAL = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x0E),
    WL_NAN_CMD_CFG_SDF_TXTIME = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x0F),
    WL_NAN_CMD_CFG_SID_BEACON = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x10),
    WL_NAN_CMD_CFG_DW_LEN = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x11),
    WL_NAN_CMD_CFG_AVAIL = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x12),
    WL_NAN_CMD_CFG_WFA_TM = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x13),
    WL_NAN_CMD_CFG_EVENT_MASK = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x14),
    WL_NAN_CMD_CFG_NAN_CONFIG =
        NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x15), /* ctrl */
    WL_NAN_CMD_CFG_NAN_ENAB = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x16),
    WL_NAN_CMD_CFG_ULW = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x17),
    WL_NAN_CMD_CFG_NAN_CONFIG2 =
        NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x18), /* ctrl2 */
    WL_NAN_CMD_CFG_DEV_CAP = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x19),
    WL_NAN_CMD_CFG_SCAN_PARAMS = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x1A),
    WL_NAN_CMD_CFG_VNDR_PAYLOAD = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x1B),
    WL_NAN_CMD_CFG_FASTDISC = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x1C),
    WL_NAN_CMD_CFG_MIN_TX_RATE = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x1D),
    WL_NAN_CMD_CFG_MAX = WL_NAN_CMD_CFG_MIN_TX_RATE,

    /* Add new commands before and update */

    /* nan election sub-commands */
    WL_NAN_CMD_ELECTION_HOST_ENABLE =
        NAN_CMD(WL_NAN_CMD_ELECTION_COMP_ID, 0x01),
    WL_NAN_CMD_ELECTION_METRICS_CONFIG =
        NAN_CMD(WL_NAN_CMD_ELECTION_COMP_ID, 0x02),
    WL_NAN_CMD_ELECTION_METRICS_STATE =
        NAN_CMD(WL_NAN_CMD_ELECTION_COMP_ID, 0x03),
    WL_NAN_CMD_ELECTION_LEAVE = NAN_CMD(WL_NAN_CMD_ELECTION_COMP_ID, 0x03),
    WL_NAN_CMD_ELECTION_MERGE = NAN_CMD(WL_NAN_CMD_ELECTION_COMP_ID, 0x04),
    WL_NAN_CMD_ELECTION_ADVERTISERS =
        NAN_CMD(WL_NAN_CMD_ELECTION_COMP_ID, 0x05),
    WL_NAN_CMD_ELECTION_RSSI_THRESHOLD =
        NAN_CMD(WL_NAN_CMD_ELECTION_COMP_ID, 0x06),
    WL_NAN_CMD_ELECTION_MAX = WL_NAN_CMD_ELECTION_RSSI_THRESHOLD,
    /* New commands go before and update */

    /* nan SD sub-commands */
    WL_NAN_CMD_SD_PARAMS = NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x01),
    WL_NAN_CMD_SD_PUBLISH = NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x02),
    WL_NAN_CMD_SD_PUBLISH_LIST = NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x03),
    WL_NAN_CMD_SD_CANCEL_PUBLISH = NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x04),
    WL_NAN_CMD_SD_SUBSCRIBE = NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x05),
    WL_NAN_CMD_SD_SUBSCRIBE_LIST = NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x06),
    WL_NAN_CMD_SD_CANCEL_SUBSCRIBE = NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x07),
    WL_NAN_CMD_SD_VND_INFO = NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x08),
    WL_NAN_CMD_SD_STATS = NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x09),
    WL_NAN_CMD_SD_TRANSMIT = NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x0A),
    WL_NAN_CMD_SD_FUP_TRANSMIT = NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x0B),
    WL_NAN_CMD_SD_CONNECTION = NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x0C),
    WL_NAN_CMD_SD_SHOW = NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x0D),
    WL_NAN_CMD_SD_DISC_CACHE_TIMEOUT = NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x0E),
    WL_NAN_CMD_SD_DISC_CACHE_CLEAR = NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x0F),
    WL_NAN_CMD_SD_MAX = WL_NAN_CMD_SD_DISC_CACHE_CLEAR,

    /* nan time sync sub-commands */

    WL_NAN_CMD_SYNC_SOCIAL_CHAN = NAN_CMD(WL_NAN_CMD_SYNC_COMP_ID, 0x01),
    WL_NAN_CMD_SYNC_AWAKE_DWS = NAN_CMD(WL_NAN_CMD_SYNC_COMP_ID, 0x02),
    WL_NAN_CMD_SYNC_BCN_RSSI_NOTIF_THRESHOLD =
        NAN_CMD(WL_NAN_CMD_SYNC_COMP_ID, 0x03),
    WL_NAN_CMD_SYNC_MAX = WL_NAN_CMD_SYNC_BCN_RSSI_NOTIF_THRESHOLD,

    /* nan2 commands */
    WL_NAN_CMD_DATA_CONFIG = NAN_CMD(WL_NAN_CMD_DATA_COMP_ID, 0x01),
    WL_NAN_CMD_DATA_RSVD02 = NAN_CMD(WL_NAN_CMD_DATA_COMP_ID, 0x02),
    WL_NAN_CMD_DATA_RSVD03 = NAN_CMD(WL_NAN_CMD_DATA_COMP_ID, 0x03),
    WL_NAN_CMD_DATA_DATAREQ = NAN_CMD(WL_NAN_CMD_DATA_COMP_ID, 0x04),
    WL_NAN_CMD_DATA_DATARESP = NAN_CMD(WL_NAN_CMD_DATA_COMP_ID, 0x05),
    WL_NAN_CMD_DATA_DATAEND = NAN_CMD(WL_NAN_CMD_DATA_COMP_ID, 0x06),
    WL_NAN_CMD_DATA_SCHEDUPD = NAN_CMD(WL_NAN_CMD_DATA_COMP_ID, 0x07),
    WL_NAN_CMD_DATA_RSVD08 = NAN_CMD(WL_NAN_CMD_DATA_COMP_ID, 0x08),
    WL_NAN_CMD_DATA_CAP = NAN_CMD(WL_NAN_CMD_DATA_COMP_ID, 0x9),
    WL_NAN_CMD_DATA_STATUS = NAN_CMD(WL_NAN_CMD_DATA_COMP_ID, 0x0A),
    WL_NAN_CMD_DATA_STATS = NAN_CMD(WL_NAN_CMD_DATA_COMP_ID, 0x0B),
    WL_NAN_CMD_DATA_RSVD0C = NAN_CMD(WL_NAN_CMD_DATA_COMP_ID, 0x0C),
    WL_NAN_CMD_DATA_NDP_SHOW = NAN_CMD(WL_NAN_CMD_DATA_COMP_ID, 0x0D),
    WL_NAN_CMD_DATA_DATACONF = NAN_CMD(WL_NAN_CMD_DATA_COMP_ID, 0x0E),
    WL_NAN_CMD_DATA_MIN_TX_RATE = NAN_CMD(WL_NAN_CMD_DATA_COMP_ID, 0x0F),
    WL_NAN_CMD_DATA_MAX_PEERS = NAN_CMD(WL_NAN_CMD_DATA_COMP_ID, 0x10),
    WL_NAN_CMD_DATA_DP_IDLE_PERIOD = NAN_CMD(WL_NAN_CMD_DATA_COMP_ID, 0x11),
    WL_NAN_CMD_DATA_DP_OPAQUE_INFO = NAN_CMD(WL_NAN_CMD_DATA_COMP_ID, 0x12),
    WL_NAN_CMD_DATA_DP_HB_DURATION = NAN_CMD(WL_NAN_CMD_DATA_COMP_ID, 0x13),
    WL_NAN_CMD_DATA_PATH_MAX =
        WL_NAN_CMD_DATA_DP_HB_DURATION, /* New ones before and update */

    /* nan dam sub-commands */
    WL_NAN_CMD_DAM_CFG = NAN_CMD(WL_NAN_CMD_DAM_COMP_ID, 0x01),
    WL_NAN_CMD_DAM_MAX = WL_NAN_CMD_DAM_CFG, /* New ones before and update */

    /* nan2.0 ranging commands */
    WL_NAN_CMD_RANGE_REQUEST = NAN_CMD(WL_NAN_CMD_RANGE_COMP_ID, 0x01),
    WL_NAN_CMD_RANGE_AUTO = NAN_CMD(WL_NAN_CMD_RANGE_COMP_ID, 0x02),
    WL_NAN_CMD_RANGE_RESPONSE = NAN_CMD(WL_NAN_CMD_RANGE_COMP_ID, 0x03),
    WL_NAN_CMD_RANGE_CANCEL = NAN_CMD(WL_NAN_CMD_RANGE_COMP_ID, 0x04),
    WL_NAN_CMD_RANGE_IDLE_COUNT = NAN_CMD(WL_NAN_CMD_RANGE_COMP_ID, 0x05),
    WL_NAN_CMD_RANGE_CANCEL_EXT = NAN_CMD(WL_NAN_CMD_RANGE_COMP_ID, 0x06),

    /*  nan debug sub-commands  */
    WL_NAN_CMD_DBG_SCAN_PARAMS = NAN_CMD(WL_NAN_CMD_DBG_COMP_ID, 0x01),
    WL_NAN_CMD_DBG_SCAN = NAN_CMD(WL_NAN_CMD_DBG_COMP_ID, 0x02),
    WL_NAN_CMD_DBG_SCAN_RESULTS = NAN_CMD(WL_NAN_CMD_DBG_COMP_ID, 0x03),
    /* This is now moved under CFG */
    WL_NAN_CMD_DBG_EVENT_MASK = NAN_CMD(WL_NAN_CMD_DBG_COMP_ID, 0x04),
    WL_NAN_CMD_DBG_EVENT_CHECK = NAN_CMD(WL_NAN_CMD_DBG_COMP_ID, 0x05),
    WL_NAN_CMD_DBG_DUMP = NAN_CMD(WL_NAN_CMD_DBG_COMP_ID, 0x06),
    WL_NAN_CMD_DBG_CLEAR = NAN_CMD(WL_NAN_CMD_DBG_COMP_ID, 0x07),
    WL_NAN_CMD_DBG_RSSI = NAN_CMD(WL_NAN_CMD_DBG_COMP_ID, 0x08),
    WL_NAN_CMD_DBG_DEBUG = NAN_CMD(WL_NAN_CMD_DBG_COMP_ID, 0x09),
    WL_NAN_CMD_DBG_TEST1 = NAN_CMD(WL_NAN_CMD_DBG_COMP_ID, 0x0A),
    WL_NAN_CMD_DBG_TEST2 = NAN_CMD(WL_NAN_CMD_DBG_COMP_ID, 0x0B),
    WL_NAN_CMD_DBG_TEST3 = NAN_CMD(WL_NAN_CMD_DBG_COMP_ID, 0x0C),
    WL_NAN_CMD_DBG_DISC_RESULTS = NAN_CMD(WL_NAN_CMD_DBG_COMP_ID, 0x0D),
    WL_NAN_CMD_DBG_STATS = NAN_CMD(WL_NAN_CMD_DBG_COMP_ID, 0x0E),
    WL_NAN_CMD_DBG_LEVEL = NAN_CMD(WL_NAN_CMD_DBG_COMP_ID, 0x0F),
    WL_NAN_CMD_DBG_MAX = WL_NAN_CMD_DBG_LEVEL, /* New ones before and update */

    /* Generic componenet */
    WL_NAN_CMD_GEN_STATS = NAN_CMD(WL_NAN_CMD_GENERIC_COMP_ID, 0x01),
    WL_NAN_CMD_GEN_FW_CAP = NAN_CMD(WL_NAN_CMD_GENERIC_COMP_ID, 0x02),
    WL_NAN_CMD_GEN_MAX = WL_NAN_CMD_GEN_FW_CAP,

    /* NAN Save-Restore */
    WL_NAN_CMD_NSR2 = NAN_CMD(WL_NAN_CMD_NSR_COMP_ID, 0x20),
    WL_NAN_CMD_NSR2_MAX = WL_NAN_CMD_NSR2,

    /* Host offload sub-commands */
    WL_NAN_CMD_NANHO_UPDATE =
        NAN_CMD(WL_NAN_CMD_NANHO_COMP_ID, 0x01), /* WILL BE REMOVED */
    WL_NAN_CMD_NANHO_INFO = NAN_CMD(WL_NAN_CMD_NANHO_COMP_ID, 0x01),
    WL_NAN_CMD_NANHO_FRM_TPLT =
        NAN_CMD(WL_NAN_CMD_NANHO_COMP_ID, 0x02), /* unused */
    WL_NAN_CMD_NANHO_OOB_NAF =
        NAN_CMD(WL_NAN_CMD_NANHO_COMP_ID, 0x03), /* unused */
    WL_NAN_CMD_NANHO_LOG_CTRL = NAN_CMD(WL_NAN_CMD_NANHO_COMP_ID, 0x04),
    WL_NAN_CMD_NANHO_VER = NAN_CMD(WL_NAN_CMD_NANHO_COMP_ID, 0x05),
    WL_NAN_CMD_NANHO_MAX = WL_NAN_CMD_NANHO_VER,

    /* Add submodules below, and update WL_NAN_CMD_MAX */

    /* ROML check for this enum should use WL_NAN_CMD_MAX */
    WL_NAN_CMD_MAX = WL_NAN_CMD_NANHO_MAX
};

/*
 * Component/Module based NAN TLV IDs for NAN stats
 */
typedef enum wl_nan_stats_tlv {
    WL_NAN_XTLV_SYNC_MAC_STATS = NAN_CMD(WL_NAN_CMD_SYNC_COMP_ID, 0x01),

    WL_NAN_XTLV_SD_DISC_STATS = NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x01),

    WL_NAN_XTLV_DATA_NDP_STATS = NAN_CMD(WL_NAN_CMD_DATA_COMP_ID, 0x01),
    WL_NAN_XTLV_DATA_NDL_STATS = NAN_CMD(WL_NAN_CMD_DATA_COMP_ID, 0x02),
    WL_NAN_XTLV_DATA_SEC_STATS = NAN_CMD(WL_NAN_CMD_DATA_COMP_ID, 0x03),

    WL_NAN_XTLV_GEN_SCHED_STATS = NAN_CMD(WL_NAN_CMD_GENERIC_COMP_ID, 0x01),
    WL_NAN_XTLV_GEN_PEER_STATS = NAN_CMD(WL_NAN_CMD_GENERIC_COMP_ID, 0x02),
    WL_NAN_XTLV_GEN_PEER_STATS_DEVCAP =
        NAN_CMD(WL_NAN_CMD_GENERIC_COMP_ID, 0x03),
    WL_NAN_XTLV_GEN_PEER_STATS_NDP = NAN_CMD(WL_NAN_CMD_GENERIC_COMP_ID, 0x04),
    WL_NAN_XTLV_GEN_PEER_STATS_SCHED =
        NAN_CMD(WL_NAN_CMD_GENERIC_COMP_ID, 0x05),
    WL_NAN_XTLV_GEN_AVAIL_STATS_SCHED =
        NAN_CMD(WL_NAN_CMD_GENERIC_COMP_ID, 0x06),
    WL_NAN_XTLV_GEN_NDP_STATS = NAN_CMD(WL_NAN_CMD_GENERIC_COMP_ID, 0x07),

    WL_NAN_XTLV_DAM_STATS = NAN_CMD(WL_NAN_CMD_DAM_COMP_ID, 0x01),
    WL_NAN_XTLV_DAM_AVAIL_STATS = NAN_CMD(WL_NAN_CMD_DAM_COMP_ID, 0x02),

    WL_NAN_XTLV_RANGE_STATS = NAN_CMD(WL_NAN_CMD_RANGE_COMP_ID, 0x01)
} wl_nan_stats_tlv_t;

/* NAN stats WL_NAN_CMD_GEN_STATS command */
/* Input data */
typedef struct wl_nan_cmn_get_stat {
    uint32 modules_btmap; /* Bitmap to indicate module stats are needed:
                           * See NAN Sub Module ID's above
                           */
    uint8 operation;      /* Get, Get and Clear */
    uint8 arg1;           /* Submodule control variable1 */
    uint8 arg2;           /* Submodule control variable2 */
    uint8 pad; /* May not be needed as TLV's are aligned,add to pass compile chk
                */
} wl_nan_cmn_get_stat_t;

/* Output for Stats container */
typedef struct wl_nan_cmn_stat {
    uint32 n_stats;     /* Number of different sub TLV stats present in the
                           container */
    uint32 totlen;      /* Total Length of stats data in container */
    uint8 stats_tlvs[]; /* Stat TLV's container */
} wl_nan_cmn_stat_t;

/* Defines for operation */
#define WLA_NAN_STATS_GET 0
#define WLA_NAN_STATS_GET_CLEAR 1

#define WL_NAN_STAT_ALL 0xFFFFFFFF

/* NAN Mac stats */

typedef struct wl_nan_mac_band_stats {
    uint32 bcn_tx; /* 2g/5g disc/sync beacon tx count */
    uint32 bcn_rx; /* 2g/5g disc/sync beacon rx count */
    uint32 dws;    /* Number of 2g/5g DW's */
} wl_nan_mac_band_stats_t;

/* Note: if this struct is changing update wl_nan_slot_ecounters_vX_t version,
 * as this struct is sent as payload in wl_nan_slot_ecounter_vX_ts
 */
typedef struct wl_nan_mac_stats {
    wl_nan_mac_band_stats_t
        band[NAN_MAX_BANDS];      /* MAC sync band specific stats */
    uint32 naf_tx;                /* NAN AF tx */
    uint32 naf_rx;                /* NAN AF rx */
    uint32 sdf_tx;                /* SDF tx */
    uint32 sdf_rx;                /* SDF rx */
    uint32 cnt_sync_bcn_rx_tu[3]; /* delta bw */
    uint32 cnt_bcn_tx_out_dw;     /* TX sync beacon outside dw */
    uint32 cnt_role_am_dw;        /* anchor master role due to dw */
    uint32 cnt_am_hop_err;        /* wrong hopcount set for AM */
} wl_nan_mac_stats_t;

/* NAN Sched stats */
/* Per core Sched stats */
typedef struct nan_sched_stats_core {
    uint32 slotstart;         /* slot_start */
    uint32 slotend;           /* slot_end */
    uint32 slotskip;          /* slot_skip */
    uint32 slotstart_partial; /* slot resume */
    uint32 slotend_partial;   /* slot pre-empt */
    uint8
        avail_upd_cnt; /* count to track num of times avail has been updated */
    uint8 pad[3];
} nan_sched_stats_core_t;
/* Common Sched stats */
typedef struct nan_sched_stats_cmn {
    uint32 slot_adj_dw; /* Slot adjusts due to DW changes */
    uint32 slot_dur;    /* Total slot duration in TU's */
} nan_sched_stats_cmn_t;

/* Note: if this struct is changing update wl_nan_slot_ecounters_vX_t version,
 * as this struct is sent as payload in wl_nan_slot_ecounters_vX_t
 */
typedef struct nan_sched_stats {
    nan_sched_stats_cmn_t cmn;
    nan_sched_stats_core_t slice[MAX_NUM_D11CORES];
} nan_sched_stats_t;
/* End NAN Sched stats */

/* NAN Discovery stats */
typedef struct nan_disc_stats {
    uint32 pub_tx;           /* Publish tx */
    uint32 pub_rx;           /* Publish rx */
    uint32 sub_tx;           /* Subscribe tx */
    uint32 sub_rx;           /* Subscribe rx */
    uint32 fup_tx;           /* Followup tx */
    uint32 fup_rx;           /* Followup rx */
    uint32 pub_resp_ignored; /* response to incoming publish ignored */
    uint32 sub_resp_ignored; /* response to incoming subscribe ignored */
} nan_disc_stats_t;
/* NAN Discovery stats end */

/* statistics for nan sec */
typedef struct nan_sec_stats_s {
    uint32 mic_fail;       /* rx mic fail */
    uint32 replay_fail;    /* replay counter */
    uint32 tx_fail;        /* tx fail (from txstatus) */
    uint32 key_info_err;   /* key info field err */
    uint32 ok_sessions;    /* successful mx negotiations */
    uint32 fail_sessions;  /* failed sessions */
    uint32 keydesc_err;    /* key desc error */
    uint32 invalid_cipher; /* cipher suite not valid */
    uint32 pmk_not_found; /* no pmk found for given service or for any reason */
    uint32 no_pmk_for_pmkid; /* no pmk found for give pmkid */
    uint32 key_install_err;  /* failed to install keys */
    uint32 no_keydesc_attr;  /* key desc attr missing */
    uint32 nonce_mismatch;   /* nonce mismatch */
} nan_sec_stats_t;

/* WL_NAN_XTLV_GEN_PEER_STATS */
typedef struct wl_nan_peer_stats {
    struct ether_addr nmi;
    uint8 pad[2];
    uint32 pkt_enq; /* counter for queued pkt of peer */

    /* NDL */
    bool ndl_exist;
    uint8 ndl_state;
    bool counter_proposed;
    uint8 pad1;

    /* NDL QoS */
    uint16 local_max_latency;
    uint16 peer_max_latency;
    uint8 local_min_slots;
    uint8 peer_min_slots;

    /* security association */
    struct ether_addr sec_laddr; /* local mac addr */
    struct ether_addr sec_raddr; /* remote mac addr */
    uint8 sec_csid;
    uint8 pad2;
} wl_nan_peer_stats_t;

/* WL_NAN_XTLV_GEN_PEER_STATS_DEVCAP */
typedef struct wl_nan_peer_stats_dev_cap {
    uint8 mapid;
    uint8 awake_dw_2g;
    uint8 awake_dw_5g;
    uint8 bands_supported;
    uint8 op_mode;
    uint8 num_antennas;
    uint16 chan_switch_time;
    uint8 capabilities;
    uint8 pad[3];
} wl_nan_peer_stats_dev_cap_t;

/* WL_NAN_XTLV_GEN_PEER_STATS_NDP */
typedef struct wl_nan_peer_stats_ndp {
    uint8 peer_role;
    uint8 ndp_state;
    uint8 indp_id;  /* initiator ndp id */
    uint8 ndp_ctrl; /* ndp control field */
    struct ether_addr peer_nmi;
    struct ether_addr peer_ndi;
    struct ether_addr local_ndi;

    /* peer scb info */
    bool scb_allocated;
    bool scb_found;
    uint32 scb_flags;
    uint32 scb_flags2;
    uint32 scb_flags3;
} wl_nan_peer_stats_ndp_t;

enum {
    WL_NAN_SCHED_STAT_SLOT_COMM = 0x01, /* Committed slot */
    WL_NAN_SCHED_STAT_SLOT_COND = 0x02, /* Conditional slot(proposal/counter) */
    WL_NAN_SCHED_STAT_SLOT_NDC = 0x04,  /* NDC slot */
    WL_NAN_SCHED_STAT_SLOT_IMMUT = 0x08, /* Immutable slot */
    WL_NAN_SCHED_STAT_SLOT_RANGE = 0x10, /* Ranging slot */
};
typedef uint16 wl_nan_stats_sched_slot_info_t;

typedef struct wl_nan_stats_sched_slot {
    wl_nan_stats_sched_slot_info_t info; /* capture slot type and more info */
    chanspec_t chanspec;
} wl_nan_stats_sched_slot_t;

/* WL_NAN_XTLV_GEN_PEER_STATS_SCHED, WL_NAN_XTLV_GEN_AVAIL_STATS_SCHED */
typedef struct wl_nan_stats_sched {
    uint8 map_id;
    uint8 seq_id; /* seq id from NA attr */
    uint8 slot_dur;
    uint8 pad;
    uint16 period;
    uint16 num_slot;
    wl_nan_stats_sched_slot_t slot[];
} wl_nan_stats_sched_t;

/* WL_NAN_XTLV_GEN_PEER_STATS_SCHED */
typedef struct wl_nan_peer_stats_sched {
    uint8 map_id;
    uint8 seq_id; /* seq id from NA attr */
    uint8 slot_dur;
    uint8 pad;
    uint16 period;
    uint16 num_slot;
    wl_nan_stats_sched_slot_t slot[];
} wl_nan_peer_stats_sched_t;

/* WL_NAN_XTLV_RANGE_STATS  */
typedef struct wl_nan_range_stats {
    uint16 rng_ssn_estb;
    uint16 rng_ssn_fail;
    uint16 rng_sched_start;
    uint16 rng_sched_end;
    uint16 ftm_ssn_success; /* number of succesfull ftm sessions */
    uint16 ftm_ssn_fail;
    uint16 num_meas;       /* number of ftm frames */
    uint16 num_valid_meas; /* number of ftm frames with valid timestamp */
} wl_nan_range_stats_t;

/* defines for ndp stats flag */

#define NAN_NDP_STATS_FLAG_ROLE_MASK 0x01
#define NAN_NDP_STATS_FLAG_ROLE_INIT 0x00
#define NAN_NDP_STATS_FLAG_ROLE_RESP 0x01

#define NAN_NDP_STATS_STATE_BIT_SHIFT 1
#define NAN_NDP_STATS_FLAG_STATE_MASK 0x07
#define NAN_NDP_STATS_FLAG_STATE_IN_PROG 0x00
#define NAN_NDP_STATS_FLAG_STATE_ESTB 0x01
#define NAN_NDP_STATS_FLAG_STATE_TEARDOWN_WAIT 0x02
/* More states can be added here, when needed */

/* WL_NAN_XTLV_GEN_NDP_STATS */
typedef struct wl_nan_ndp_stats_s {
    uint8 ndp_id;
    uint8 indp_id;
    uint8 flags;
    uint8 nan_sec_csid;
    struct ether_addr lndi_addr;
    struct ether_addr pnmi_addr;
    struct ether_addr pndi_addr;
    uint8 PAD[2];
} wl_nan_ndp_stats_t;

/* WL_NAN_XTLV_EV_SLOT_INFO */
typedef struct wl_nan_slot_info_s {
    /* dw slot start expected */
    uint32 dwst_h;
    uint32 dwst_l;
    /* dw slot start actual */
    uint32 act_dwst_h;
    uint32 act_dwst_l;
    uint16 cur_chan[MAX_NUM_D11CORES]; /* sdb channels */
    uint16 dw_chan;                    /* dw channel */
    uint8 dw_no;                       /* dw number */
    uint8 slot_seq_no;                 /* slot seq no. */
} wl_nan_slot_info_t;

/* WL_NAN_EVENT_MR_CHANGED */
typedef uint8 wl_nan_mr_changed_t;
#define WL_NAN_AMR_CHANGED 1
#define WL_NAN_IMR_CHANGED 2

/*
 * The macro BCMUTILS_ERR_CODES is defined only
 * when using the common header file(a new approach)
 * bcmutils/include/bcmerror.h. Otherwise, use the error codes from this file.
 */
#ifndef BCMUTILS_ERR_CODES

/** status BCME_ vs NAN status - range reserved for BCME_ */
enum {
    /* add new status here... */
    WL_NAN_E_INVALID_TOKEN = -2135,    /* invalid token or mismatch */
    WL_NAN_E_INVALID_ATTR = -2134,     /* generic invalid attr error */
    WL_NAN_E_INVALID_NDL_ATTR = -2133, /* invalid NDL attribute */
    WL_NAN_E_SCB_NORESOURCE = -2132,   /* no more peer scb available */
    WL_NAN_E_PEER_NOTAVAIL = -2131,
    WL_NAN_E_SCB_EXISTS = -2130,
    WL_NAN_E_INVALID_PEER_NDI = -2129,
    WL_NAN_E_INVALID_LOCAL_NDI = -2128,
    WL_NAN_E_ALREADY_EXISTS = -2127, /* generic NAN error for duplication */
    WL_NAN_E_EXCEED_MAX_NUM_MAPS = -2126,
    WL_NAN_E_INVALID_DEV_CHAN_SCHED = -2125,
    WL_NAN_E_INVALID_PEER_BLOB_TYPE = -2124,
    WL_NAN_E_INVALID_LCL_BLOB_TYPE = -2123,
    WL_NAN_E_BCMC_PDPA = -2122, /* BCMC NAF PDPA */
    WL_NAN_E_TIMEOUT = -2121,
    WL_NAN_E_HOST_CFG = -2120,
    WL_NAN_E_NO_ACK = -2119,
    WL_NAN_E_SECINST_FAIL = -2118,
    WL_NAN_E_REJECT_NDL = -2117, /* generic NDL rejection error */
    WL_NAN_E_INVALID_NDP_ATTR = -2116,
    WL_NAN_E_HOST_REJECTED = -2115,
    WL_NAN_E_PCB_NORESOURCE = -2114,
    WL_NAN_E_NDC_EXISTS = -2113,
    WL_NAN_E_NO_NDC_ENTRY_AVAIL = -2112,
    WL_NAN_E_INVALID_NDC_ENTRY = -2111,
    WL_NAN_E_SD_TX_LIST_FULL = -2110,
    WL_NAN_E_SVC_SUB_LIST_FULL = -2109,
    WL_NAN_E_SVC_PUB_LIST_FULL = -2108,
    WL_NAN_E_SDF_MAX_LEN_EXCEEDED = -2107,
    WL_NAN_E_ZERO_CRB = -2106,              /* no CRB between local and peer */
    WL_NAN_E_PEER_NDC_NOT_SELECTED = -2105, /* peer ndc not selected */
    WL_NAN_E_DAM_CHAN_CONFLICT = -2104,     /* dam schedule channel conflict */
    WL_NAN_E_DAM_SCHED_PERIOD = -2103,      /* dam schedule period mismatch */
    WL_NAN_E_LCL_NDC_NOT_SELECTED =
        -2102,                           /* local selected ndc not configured */
    WL_NAN_E_NDL_QOS_INVALID_NA = -2101, /* na doesn't comply with ndl qos */
    WL_NAN_E_CLEAR_NAF_WITH_SA_AS_RNDI =
        -2100,                      /* rx clear naf with peer rndi */
    WL_NAN_E_SEC_CLEAR_PKT = -2099, /* rx clear pkt from a peer with sec_sa */
    WL_NAN_E_PROT_NON_PDPA_NAF = -2098, /* rx protected non PDPA frame */
    WL_NAN_E_DAM_DOUBLE_REMOVE =
        -2097, /* remove peer schedule already removed */
    WL_NAN_E_DAM_DOUBLE_MERGE = -2096, /* merge peer schedule already merged */
    WL_NAN_E_DAM_REJECT_INVALID = -2095, /* reject for invalid schedule */
    WL_NAN_E_DAM_REJECT_RANGE = -2094,
    WL_NAN_E_DAM_REJECT_QOS = -2093,
    WL_NAN_E_DAM_REJECT_NDC = -2092,
    WL_NAN_E_DAM_REJECT_PEER_IMMUT = -2091,
    WL_NAN_E_DAM_REJECT_LCL_IMMUT = -2090,
    WL_NAN_E_DAM_EXCEED_NUM_SCHED = -2089,
    WL_NAN_E_DAM_INVALID_SCHED_MAP = -2088, /* invalid schedule map list */
    WL_NAN_E_DAM_INVALID_LCL_SCHED = -2087,
    WL_NAN_E_INVALID_MAP_ID = -2086,
    WL_NAN_E_CHAN_OVERLAP_ACROSS_MAP = -2085,
    WL_NAN_E_INVALID_CHAN_LIST = -2084,
    WL_NAN_E_INVALID_RANGE_TBMP = -2083,
    WL_NAN_E_INVALID_IMMUT_SCHED = -2082,
    WL_NAN_E_INVALID_NDC_ATTR = -2081,
    WL_NAN_E_INVALID_TIME_BITMAP = -2080,
    WL_NAN_E_INVALID_NA_ATTR = -2079,
    WL_NAN_E_NO_NA_ATTR_IN_AVAIL_MAP =
        -2078, /* no na attr saved in avail map */
    WL_NAN_E_INVALID_MAP_IDX = -2077,
    WL_NAN_E_SEC_SA_NOTFOUND = -2076,
    WL_NAN_E_BSSCFG_NOTFOUND = -2075,
    WL_NAN_E_SCB_NOTFOUND = -2074,
    WL_NAN_E_NCS_SK_KDESC_TYPE = -2073,
    WL_NAN_E_NCS_SK_KEY_DESC_VER = -2072,    /* key descr ver */
    WL_NAN_E_NCS_SK_KEY_TYPE = -2071,        /* key descr type */
    WL_NAN_E_NCS_SK_KEYINFO_FAIL = -2070,    /* key info (generic) */
    WL_NAN_E_NCS_SK_KEY_LEN = -2069,         /* key len */
    WL_NAN_E_NCS_SK_KDESC_NOT_FOUND = -2068, /* key desc not found */
    WL_NAN_E_NCS_SK_INVALID_PARAMS = -2067,  /* invalid args */
    WL_NAN_E_NCS_SK_KDESC_INVALID = -2066,   /* key descr is not valid */
    WL_NAN_E_NCS_SK_NONCE_MISMATCH = -2065,
    WL_NAN_E_NCS_SK_KDATA_SAVE_FAIL = -2064, /* not able to save key data */
    WL_NAN_E_NCS_SK_AUTH_TOKEN_CALC_FAIL = -2063,
    WL_NAN_E_NCS_SK_PTK_CALC_FAIL = -2062,
    WL_NAN_E_INVALID_STARTOFFSET = -2061,
    WL_NAN_E_BAD_NA_ENTRY_TYPE = -2060,
    WL_NAN_E_INVALID_CHANBMP = -2059,
    WL_NAN_E_INVALID_OP_CLASS = -2058,
    WL_NAN_E_NO_IES = -2057,
    WL_NAN_E_NO_PEER_ENTRY_AVAIL = -2056,
    WL_NAN_E_INVALID_PEER = -2055,
    WL_NAN_E_PEER_EXISTS = -2054,
    WL_NAN_E_PEER_NOTFOUND = -2053,
    WL_NAN_E_NO_MEM = -2052,
    WL_NAN_E_INVALID_OPTION = -2051,
    WL_NAN_E_INVALID_BAND = -2050,
    WL_NAN_E_INVALID_MAC = -2049,
    WL_NAN_E_BAD_INSTANCE = -2048,
    /* NAN status code reserved from -2048 to -3071 */
    /* Do NOT add new status below -2048 */
    WL_NAN_E_ERROR = -1,
    WL_NAN_E_OK = 0
};

#endif /* BCMUTILS_ERR_CODES */

/* Error codes used in vendor specific attribute in Data Path Termination frames
 */
enum {
    WL_NAN_DPEND_E_OK = 0,
    WL_NAN_DPEND_E_ERROR = 1,
    WL_NAN_DPEND_E_HOST_CMD = 2,
    WL_NAN_DPEND_E_HOST_REJECTED = 3, /* host rejected rx frame  */
    WL_NAN_DPEND_E_RESOURCE_LIMIT = 4,
    WL_NAN_DPEND_E_NO_ACK_RCV = 5,
    WL_NAN_DPEND_E_TIMEOUT = 6,
    WL_NAN_DPEND_E_NO_ELT = 7, /* rx frame missing element container */
    WL_NAN_DPEND_E_NO_NDP_ATTR = 8,
    WL_NAN_DPEND_E_NO_AVAIL_ATTR = 9,
    WL_NAN_DPEND_E_NO_NDC_ATTR = 10,
    WL_NAN_DPEND_E_NO_RANGE_BM = 11,
    WL_NAN_DPEND_E_INVALID_NDP_ATTR = 12,
    WL_NAN_DPEND_E_INVALID_NDC_ATTR = 13,
    WL_NAN_DPEND_E_INVALID_IMMUT = 14,
    WL_NAN_DPEND_E_INVALID_NDL_QOS = 15,
    WL_NAN_DPEND_E_INVALID_SEC_PARAMS = 16,
    WL_NAN_DPEND_E_REJECT_AVAIL = 17,
    WL_NAN_DPEND_E_REJECT_NDL = 18,
    WL_NAN_DPEND_E_SCB_NORESOURCE = 19
};

typedef int32 wl_nan_status_t;

/** nan cmd list entry  */
enum wl_nan_sub_cmd_input_flags {
    WL_NAN_SUB_CMD_FLAG_NONE = 0,
    WL_NAN_SUB_CMD_FLAG_SKIP = 1,      /* Skip to next sub-command on error */
    WL_NAN_SUB_CMD_FLAG_TERMINATE = 2, /* Terminate processing and return */
    WL_NAN_SUB_CMD_FLAG_LAST           /* Keep this at the end */
};

/** container for nan events */
typedef struct wl_nan_ioc {
    uint16 version; /**< interface command or event version */
    uint16 id;      /**< nan ioctl cmd  ID  */
    uint16 len;     /**< total length of all tlv records in data[]  */
    uint16 pad;     /**< pad to be 32 bit aligment */
    uint8 data[];   /**< var len payload of bcm_xtlv_t type */
} wl_nan_ioc_t;

/*
 * NAN sub-command data structures
 */

/*
 * Config component WL_NAN_CMD_CFG_XXXX sub-commands
 * WL_NAN_CMD_CFG_ENABLE
 */
enum wl_nan_config_state {
    WL_NAN_CONFIG_STATE_DISABLE = 0,
    WL_NAN_CONFIG_STATE_ENABLE = 1
};

typedef int8 wl_nan_config_state_t;

/* WL_NAN_CMD_CFG_NAN_INIT */

typedef uint8 wl_nan_init_t;

/* WL_NAN_CMD_CFG_NAN_VERSION */
typedef uint16 wl_nan_ver_t;

/* WL_NAN_CMD_CFG_NAN_CONFIG  */
typedef uint32 wl_nan_cfg_ctrl_t;

/* WL_NAN_CMD_CFG_NAN_CONFIG2 */
typedef struct wl_nan_cfg_ctrl2 {
    uint32 flags1; /* wl_nan_cfg_ctrl2_flags1 */
    uint32 flags2; /* wl_nan_cfg_ctrl2_flags2 */
} wl_nan_cfg_ctrl2_t;

enum wl_nan_cfg_ctrl2_flags1 {
    /* Allows unicast SDF TX while local device is under NDP/NDL negotiation,
     * but Not with the peer SDF destined to.
     */
    WL_NAN_CTRL2_FLAG1_ALLOW_SDF_TX_UCAST_IN_PROG = 0x00000001,
    /* Allows broadcast SDF TX while local device is under NDP/NDL negotiation
     */
    WL_NAN_CTRL2_FLAG1_ALLOW_SDF_TX_BCAST_IN_PROG = 0x00000002,
    /* Allows the device to send schedule update automatically on local schedule
       change */
    WL_NAN_CTRL2_FLAG1_AUTO_SCHEDUPD = 0x00000004,
    /* Allows the device to handle slot pre_close operations */
    WL_NAN_CTRL2_FLAG1_SLOT_PRE_CLOSE = 0x00000008
};
#define WL_NAN_CTRL2_FLAGS1_MASK 0x0000000F

#define WL_NAN_CTRL2_FLAGS2_MASK 0x00000000

/*
 * WL_NAN_CMD_CFG_BAND, WL_NAN_CMD_CFG_RSSI_THRESHOLD(Get only)
 */
typedef uint8 wl_nan_band_t;

/*
 * WL_NAN_CMD_CFG_ROLE
 */
enum wl_nan_role {
    WL_NAN_ROLE_AUTO = 0,
    WL_NAN_ROLE_NON_MASTER_NON_SYNC = 1,
    WL_NAN_ROLE_NON_MASTER_SYNC = 2,
    WL_NAN_ROLE_MASTER = 3,
    WL_NAN_ROLE_ANCHOR_MASTER = 4
};

typedef uint8 wl_nan_role_t;

typedef struct wl_nan_device_state {
    wl_nan_role_t role;                 /* Sync Master, Non-Sync Master */
    uint8 state;
    uint8 hopcount;                     /* Hops to the Anchor Master */
    struct ether_addr immediate_master; /* Master MAC */
    struct ether_addr anchor_master;    /* Anchor Master MAC */
    struct ether_addr
        cluster_id; /* Cluster ID to which this device belongs to */
    uint8 PAD[3];
    uint32 tsf_high; /* NAN Cluster TSFs */
    uint32 tsf_low;
} wl_nan_device_state_t;

/*
 * WL_NAN_CMD_CFG_HOP_CNT, WL_NAN_CMD_CFG_HOP_LIMIT
 */
typedef uint8 wl_nan_hop_count_t;

/*
 * WL_NAN_CMD_CFG_WARMUP_TIME
 */
typedef uint32 wl_nan_warmup_time_ticks_t;

/*
 * WL_NAN_CMD_CFG_RSSI_THRESHOLD
 * rssi_close and rssi_mid are used to transition master to non-master
 * role by NAN state machine. rssi thresholds corresponding to the band
 * will be updated.
 */
/* To be deprecated */
typedef struct wl_nan_rssi_threshold {
    wl_nan_band_t band;
    int8 rssi_close;
    int8 rssi_mid;
    uint8 pad;
} wl_nan_rssi_threshold_t;

/* WL_NAN_CMD_ELECTION_RSSI_THRESHOLD */

typedef struct wl_nan_rssi_thld {
    int8 rssi_close_2g;
    int8 rssi_mid_2g;
    int8 rssi_close_5g;
    int8 rssi_mid_5g;
} wl_nan_rssi_thld_t;

/* WL_NAN_CMD_DATA_MAX_PEERS */

typedef uint8 wl_nan_max_peers_t;

/*
 * WL_NAN_CMD_CFG_STATUS
 */

typedef enum wl_nan_election_mode {
    WL_NAN_ELECTION_RUN_BY_HOST = 1,
    WL_NAN_ELECTION_RUN_BY_FW = 2
} wl_nan_election_mode_t;

typedef struct wl_nan_conf_status {
    struct ether_addr nmi; /*  NAN mgmt interface address */
    uint8 enabled;         /* NAN is enabled */
    uint8 role;            /* Current nan sync role */
    struct ether_addr cid; /*  Current Cluster id */
    uint8 social_chans[2]; /* Social channels */
    uint8 mr[8];           /* Self Master Rank */
    uint8 amr[8];          /* Anchor Master Rank */
    uint32 ambtt;          /* Anchor master beacon target time */
    uint32 cluster_tsf_h;  /* Current Cluster TSF High */
    uint32 cluster_tsf_l;  /* Current Cluster TSF Low */
    uint8 election_mode;   /* Election mode, host or firmware */
    uint8 hop_count;       /* Current Hop count */
    uint8 imr[8];          /* Immediate Master Rank */
    uint8 pad[4];          /* remove after precommit */
    uint16 opt_tlvs_len;
    uint8 opt_tlvs[];
} wl_nan_conf_status_t;

/*
 * WL_NAN_CMD_CFG_OUI
 */
typedef struct wl_nan_oui_type {
    uint8 nan_oui[DOT11_OUI_LEN];
    uint8 type;
} wl_nan_oui_type_t;

/*
 * WL_NAN_CMD_CFG_COUNT
 */
typedef struct wl_nan_count {
    uint32 cnt_bcn_tx;      /**< TX disc/sync beacon count */
    uint32 cnt_bcn_rx;      /**< RX disc/sync beacon count */
    uint32 cnt_svc_disc_tx; /**< TX svc disc frame count */
    uint32 cnt_svc_disc_rx; /**< RX svc disc frame count */
} wl_nan_count_t;
/*
 * Election component WL_NAN_CMD_ELECTION_XXXX sub-commands
 * WL_NAN_CMD_ELECTION_HOST_ENABLE
 */
enum wl_nan_enable_flags {
    WL_NAN_DISABLE_FLAG_HOST_ELECTION = 0,
    WL_NAN_ENABLE_FLAG_HOST_ELECTION = 1
};

/*
 * 0 - disable host based election
 * 1 - enable host based election
 */
typedef uint8 wl_nan_host_enable_t;

/*
 * WL_NAN_CMD_ELECTION_METRICS_CONFIG
 */
/* Set only */
typedef struct wl_nan_election_metric_config {
    uint8 random_factor; /* Configured random factor */
    uint8 master_pref;   /* configured master preference */
    uint8 pad[2];
} wl_nan_election_metric_config_t;

/*
 * WL_NAN_CMD_ELECTION_METRICS_STATE
 */
/* Get only */
typedef struct wl_nan_election_metric_state {
    uint8 random_factor; /* random factor used in MIs */
    uint8 master_pref;   /* Master advertised in MIs */
    uint8 pad[2];
} wl_nan_election_metric_state_t;

/*
 * WL_NAN_CMD_ELECTION_LEAVE
 * WL_NAN_CMD_ELECTION_STOP
 */
typedef struct ether_addr wl_nan_cluster_id_t;

#define NHO_SEC_NCS_SK_REPLAY_CNT_LEN 8u
/* kck */
#define NHO_SEC_NCS_SK_256_KCK_LEN 24u /* refer nan2 r21 7.1.4.1 */
/* kek */
#define NHO_SEC_NCS_SK_256_KEK_LEN 32u /* refer nan2 r21 7.1.4.1 */
/* tk */
#define NHO_SEC_NCS_SK_256_TK_LEN 32u /* refer nan2 r21 section 7 */

#define NHO_SEC_NCS_SK_MAX_KEY_LEN                                             \
    (NHO_SEC_NCS_SK_256_KCK_LEN + NHO_SEC_NCS_SK_256_KEK_LEN +                 \
     NHO_SEC_NCS_SK_256_TK_LEN)

#define NHO_SEC_KEY_INSTALL_FLAG (1 << 0)
#define NHO_SEC_KEY_UNINSTALL_FLAG (1 << 1)

/* WL_NAN_XTLV_NANHO_SEC_SA */
typedef struct nanho_sec_sa {
    int8 csid;     /* Cipher suite ID to identify the security type */
    uint8 kck_len; /* KCK len in key_buf */
    uint8 kek_len; /* KEK len in key_buf */
    uint8 tk_len;  /* Transient key len in key_buf */
    uint16 flags;
    uint16 pad;
    struct ether_addr laddr;                      /* local mac addr */
    struct ether_addr raddr;                      /* remote mac addr */
    uint8 key_krc[NHO_SEC_NCS_SK_REPLAY_CNT_LEN]; /* Key Replay ctr */
    uint8 key_buf[NHO_SEC_NCS_SK_MAX_KEY_LEN];    /* PTK = KCK + KEK + TK */
} nanho_sec_sa_t;

/*
 * WL_NAN_CMD_ELECTION_MERGE
 * 0 - disable cluster merge
 * 1 - enable cluster merge
 */
typedef uint8 wl_nan_merge_enable_t;

/*
 * WL_NAN_CMD_CFG_ROLE
 * role = 0 means configuration by firmware(obsolete); otherwise by host
 * when host configures role, also need target master address to sync to
 */
#define NAN_SYNC_MASTER_SELF 1
#define NAN_SYNC_MASTER_USE_TIMING 2 /*  Use the tsf timing provided */
#define NAN_SYNC_MASTER_AMREC_UPD 4  /* provide AM record update */

/*
    struct ether_addr addr:
    when NAN_SYNC_MASTER_USE_TIMING is set, addr is the mac of Rx NAN beacon
    providing the timing info
    ltsf_h, ltsf_l:
    The local TSF timestamp filled in by FW in the WL_NAN_EVENT_BCN_RX event;
    rtsf_h, rtsf_l:
    The timestamp in the Rx beacon frame, filled in by host
    uint32 ambtt:
    the amtt in the cluster ID attribute in the Rx beacon frame
*/

typedef struct nan_sync_master {
    uint8 flag; /*  1: self; 2: use TSF timing; 4: AMR update */
    uint8 hop_count;
    struct ether_addr addr;
    struct ether_addr cluster_id;
    chanspec_t channel; /* bcn reception channel */
    uint32 ltsf_h;
    uint32 ltsf_l;
    uint32 rtsf_h;
    uint32 rtsf_l;
    uint8 amr[WL_NAN_MASTER_RANK_LEN];
    uint32 ambtt;
} nan_sync_master_t;

/* NAN advertiser structure */
/* RSDB: add chspec to indicates core corresponds correct core */
typedef struct nan_adv_entry {
    uint8 age;       /* used to remove stale entries */
    uint8 hop_count; /* for NTLV support, use bit7 for virtual NAN peer */
    struct ether_addr addr;
    struct ether_addr cluster_id;
    chanspec_t channel; /* bcn reception channel */
    uint32 ltsf_h;
    uint32 ltsf_l;
    uint32 rtsf_h;
    uint32 rtsf_l;
    uint8 amr[WL_NAN_MASTER_RANK_LEN];
    uint32 ambtt;
    int8 rssi[NAN_MAX_BANDS];      /* rssi last af was received at */
    int8 last_rssi[NAN_MAX_BANDS]; /* rssi in the last AF */
} nan_adv_entry_t;
#define NAN_VIRTUAL_PEER_BIT 0x80

typedef enum {
    NAC_CNT_NTLV_AF_TX = 0,     /* count of AF containing NTLV tx */
    NAC_CNT_NTLV_AF_RX,         /* count of AF containing NTLV rx */
    NAC_CNT_NTLV_TMERR_TX,      /* count of NTLV tx timing error */
    NAC_CNT_NTLV_TMERR_RX,      /* count of NTLV rx timing error */
    NAC_CNT_NTLV_TM_MISMATCH,   /* count of TopMaster mismatch in Rx NTLV
                                   processing */
    NAC_CNT_NTLV_ADV_EXISTED,   /* count of NTLV ignored bc advertiser existed
                                   from bcn */
    NAC_CNT_NTLV_STALED_BCN,    /* count of staled bcn from NTLV info */
    NAC_CNT_NTLV_MERGE,         /* count of NTLV used for NAN cluster merge */
    NAC_CNT_NTLV_ELECTION_DROP, /* count of NTLV dropped in NAN election */
    NAC_CNT_NTLV_TSF_ADOPT,     /* count of NTLV used for NAN TSF adoption */
    NAC_CNT_NTLV_LAST
} nac_cnt_enum_t;

#define NAC_MAX_CNT (NAC_CNT_NTLV_LAST)

typedef struct nac_stats {
    uint32 nac_cnt[NAC_MAX_CNT];
} nac_stats_t;

typedef struct nan_adv_table {
    uint8 num_adv;
    uint8 adv_size;
    uint8 pad[2];
    nan_adv_entry_t adv_nodes[0];
} nan_adv_table_t;

typedef struct wl_nan_role_cfg {
    wl_nan_role_t cfg_role;
    wl_nan_role_t cur_role;
    uint8 pad[2];
    nan_sync_master_t target_master;
} wl_nan_role_cfg_t;

typedef struct wl_nan_role_config {
    wl_nan_role_t role;
    struct ether_addr target_master;
    uint8 pad;
} wl_nan_role_config_t;

typedef int8 wl_nan_sd_optional_field_types_t;

/* Flag bits for Publish and Subscribe (wl_nan_sd_params_t flags) */

/* First 8 bits are blocked for mapping
 * against svc_control flag bits which goes out
 * as part of SDA attribute in air in SDF frames
 */
#define WL_NAN_RANGE_LIMITED 0x0040

/* Event generation indicator (default is continuous) */

#define WL_NAN_MATCH_ONCE 0x100000
#define WL_NAN_MATCH_NEVER 0x200000

/* Bits specific to Publish */

#define WL_NAN_PUB_UNSOLICIT 0x1000 /* Unsolicited Tx */
#define WL_NAN_PUB_SOLICIT 0x2000   /* Solicited Tx */
#define WL_NAN_PUB_BOTH 0x3000      /* Both the above */

#define WL_NAN_PUB_BCAST 0x4000 /* bcast solicited Tx only */
#define WL_NAN_PUB_EVENT 0x8000 /* Event on each solicited Tx */
#define WL_NAN_PUB_SOLICIT_PENDING                                             \
    0x10000 /* Used for one-time solicited Publish */

#define WL_NAN_FOLLOWUP 0x20000 /* Follow-up frames */
#define WL_NAN_TX_FOLLOWUP                                                     \
    0x40000 /* host generated transmit Follow-up frames */

/* Bits specific to Subscribe */

#define WL_NAN_SUB_ACTIVE 0x1000            /* Active subscribe mode */
#define WL_NAN_SUB_MATCH_IF_SVC_INFO 0x2000 /* Service info in publish */

#define WL_NAN_TTL_UNTIL_CANCEL                                                \
    0xFFFFFFFF /* Special values for time to live (ttl) parameter */

/*
 * Publish -  runs until first transmission
 * Subscribe - runs until first  DiscoveryResult event
 */
#define WL_NAN_TTL_FIRST 0

/* Nan Service Based control Flags */

/* If set, dev will take care of dp_resp */
#define WL_NAN_SVC_CTRL_AUTO_DPRESP 0x1000000

/* If set, host wont rec event "receive" */
#define WL_NAN_SVC_CTRL_SUPPRESS_EVT_RECEIVE 0x2000000

/* If set, host wont rec event "replied" */
#define WL_NAN_SVC_CTRL_SUPPRESS_EVT_REPLIED 0x4000000

/* If set, host wont rec event "terminated" */
#define WL_NAN_SVC_CTRL_SUPPRESS_EVT_TERMINATED 0x8000000

/*
 * WL_NAN_CMD_SD_PARAMS
 */
typedef struct wl_nan_sd_params {
    uint16 length;  /* length including options */
    uint8 period;   /* period of the unsolicited SDF xmission in DWs */
    uint8 awake_dw; /* interval between two DWs where SDF tx/rx are done */
    uint8 svc_hash[WL_NAN_SVC_HASH_LEN]; /* Hash for the service name */
    uint8 instance_id;                   /* Instance of the current service */
    int8 proximity_rssi; /* RSSI limit to Rx subscribe or pub SDF 0 no effect */
    uint32 flags;        /* bitmap representing aforesaid optional flags */
    int32 ttl; /* TTL for this instance id, -1 will run till cancelled */
    tlv_t optional[1]; /* optional fields in the SDF  as appropriate */
} wl_nan_sd_params_t;

/*
 * WL_NAN_CMD_SD_PUBLISH_LIST
 * WL_NAN_CMD_SD_SUBSCRIBE_LIST
 */
typedef struct wl_nan_service_info {
    uint8 instance_id;                       /* Publish instance ID */
    uint8 service_hash[WL_NAN_SVC_HASH_LEN]; /* Hash for service name */
} wl_nan_service_info_t;

typedef struct wl_nan_service_list {
    uint16 id_count; /* Number of registered publish/subscribe services */
    wl_nan_service_info_t
        list[1]; /* service info defined by nan_service instance */
} wl_nan_service_list_t;

/*
 * WL_NAN_CMD_CFG_BCN_INTERVAL
 */
typedef uint16 wl_nan_disc_bcn_interval_t;

/*
 * WL_NAN_CMD_CFG_SDF_TXTIME
 */
typedef uint16 wl_nan_svc_disc_txtime_t;

/*
 * WL_NAN_CMD_CFG_STOP_BCN_TX
 */
typedef uint16 wl_nan_stop_bcn_tx_t;

/*
 * WL_NAN_CMD_CFG_SID_BEACON
 */
typedef struct wl_nan_sid_beacon_control {
    uint8 sid_enable;    /* Flag to indicate the inclusion of Service IDs in
                            Beacons */
    uint8 sid_count;     /* Limit for number of publish SIDs to be included in
                            Beacons */
    uint8 sub_sid_count; /* Limit for number of subscribe SIDs to be included in
                            Beacons */
    uint8 pad;
} wl_nan_sid_beacon_control_t;

/*
 * WL_NAN_CMD_CFG_DW_LEN
 */
typedef uint16 wl_nan_dw_len_t;

/*
 * WL_NAN_CMD_CFG_AWAKE_DW   Will be deprecated.
 */
typedef struct wl_nan_awake_dw {
    wl_nan_band_t band; /* 0 - b mode 1- a mode */
    uint8 interval;     /* 1 or 2 or 4 or 8 or 16 */
    uint16 pad;
} wl_nan_awake_dw_t;

/*
 * WL_NAN_CMD_CFG_AWAKE_DWS
 */
typedef struct wl_nan_awake_dws {
    uint8 dw_interval_2g; /* 2G DW interval */
    uint8 dw_interval_5g; /* 5G DW interval */
    uint16 pad;
} wl_nan_awake_dws_t;

/* WL_NAN_CMD_SYNC_BCN_RSSI_NOTIF_THRESHOLD */

typedef struct wl_nan_rssi_notif_thld {
    int8 bcn_rssi_2g;
    int8 bcn_rssi_5g;
    int16 pad;
} wl_nan_rssi_notif_thld_t;

/*
 * WL_NAN_CMD_CFG_SOCIAL_CHAN
 */
typedef struct wl_nan_social_channels {
    uint8 soc_chan_2g; /* 2G social channel */
    uint8 soc_chan_5g; /* 5G social channel */
    uint16 pad;
} wl_nan_social_channels_t;

/*
 * WL_NAN_CMD_SD_CANCEL_PUBLISH
 * WL_NAN_CMD_SD_CANCEL_SUBSCRIBE
 */
typedef uint8
    wl_nan_instance_id; /* Instance ID of an active publish instance */

/*
 * WL_NAN_CMD_SD_VND_INFO
 */
typedef struct wl_nan_sd_vendor_info {
    uint16 length; /* Size in bytes of the payload following this field */
    uint8 data[];  /* Vendor Information */
} wl_nan_sd_vendor_info_t;

/*
 * WL_NAN_CMD_SD_STATS
 */
typedef struct wl_nan_sd_stats {
    uint32 sdftx;
    uint32 sdfrx;
    uint32 sdsrffail;
    uint32 sdrejrssi;
    uint32 sdfollowuprx;
    uint32 sdsubmatch;
    uint32 sdpubreplied;
    uint32 sdmftfail1;
    uint32 sdmftfail2;
    uint32 sdmftfail3;
    uint32 sdmftfail4;
} wl_nan_sd_stats_t;

/* Flag bits for sd transmit message (wl_nan_sd_transmit_t flags) */

/* If set, host wont rec "tx status" event for tx-followup msg */
#define WL_NAN_FUP_SUPR_EVT_TXS 0x01
/* more flags can be added here */

/*
 * WL_NAN_CMD_SD_TRANSMIT
 * WL_NAN_CMD_SD_FUP_TRANSMIT
 */
typedef struct wl_nan_sd_transmit {
    uint8 local_service_id;             /* Sender Service ID */
    uint8 requestor_service_id;         /* Destination Service ID */
    struct ether_addr destination_addr; /* Destination MAC */
    uint16 token;                       /* follow_up_token when a follow-up
                                         * msg is queued successfully
                                         */
    uint8 priority;                     /* requested relative prio */
    uint8 flags;                        /* Flags for tx follow-up msg */
    uint16 opt_len;                     /* total length of optional tlvs */
    uint8 opt_tlv[];                    /* optional tlvs in bcm_xtlv_t type */
} wl_nan_sd_transmit_t;

/* disc cache timeout for a cache entry */
typedef uint16 wl_nan_disc_cache_timeout_t;

/*
 * WL_NAN_CMD_SYNC_TSRESERVE
 */
/** time slot */
#define NAN_MAX_TIMESLOT 32
typedef struct wl_nan_timeslot {
    uint32 abitmap; /**< available bitmap */
    uint32 chanlist[NAN_MAX_TIMESLOT];
} wl_nan_timeslot_t;

/*
 * Deprecated
 *
 * WL_NAN_CMD_SYNC_TSRELEASE
 */
typedef uint32 wl_nan_ts_bitmap_t;

/* nan passive scan params */
#define NAN_SCAN_MAX_CHCNT 8
/* nan merge scan params */
typedef struct wl_nan_scan_params {
    /* dwell time of discovery channel corresponds to band_idx.
     * If set to 0 then fw default will be used.
     */
    uint16 dwell_time;
    /* scan period of  discovery channel corresponds to band_idx.
     * If set to 0 then fw default will be used.
     */
    uint16 scan_period;
    /* band index of discovery channel */
    uint8 band_index;
} wl_nan_scan_params_t;

/*
 * WL_NAN_CMD_DBG_SCAN
 */
typedef struct wl_nan_dbg_scan {
    struct ether_addr cid;
    uint8 pad[2];
} wl_nan_dbg_scan_t;

/* NAN_DBG_LEVEL */
typedef struct wl_nan_dbg_level {
    uint32 nan_err_level;  /* for Error levels */
    uint32 nan_dbg_level;  /* for bebug logs and trace */
    uint32 nan_info_level; /* for dumps like prhex */
} wl_nan_dbg_level_t;

/*
 * WL_NAN_CMD_DBG_EVENT_MASK
 */
typedef uint32 wl_nan_event_mask_t;

/*
 * WL_NAN_CMD_DBG_EVENT_CHECK
 */
typedef uint8 wl_nan_dbg_ifname[BCM_MSG_IFNAME_MAX];

/*
 * WL_NAN_CMD_DBG_DUMP
 * WL_NAN_CMD_DBG_CLEAR
 */
enum wl_nan_dbg_dump_type {
    WL_NAN_DBG_DT_RSSI_DATA = 1,
    WL_NAN_DBG_DT_STATS_DATA = 2,
    /*
     * Additional enums before this line
     */
    WL_NAN_DBG_DT_INVALID
};
typedef int8 wl_nan_dbg_dump_type_t;

/** various params and ctl swithce for nan_debug instance  */
/*
 * WL_NAN_CMD_DBG_DEBUG
 */
typedef struct wl_nan_debug_params {
    uint16 cmd; /**< debug cmd to perform a debug action */
    uint16 status;
    uint32 msglevel; /**< msg level if enabled */
    uint8 enabled;   /**< runtime debuging enabled */
    uint8 collect;
    uint8 PAD[2];
} wl_nan_debug_params_t;

typedef struct wl_nan_sched_svc_timeslot_s {
    uint32 abitmap; /* availability bitmap */
    uint32 chanlist[NAN_MAX_TIMESLOT];
    uint8 res;   /* resolution: 0 = 16ms, 1 = 32ms, 2 = 64ms 3 = reserved. REfer
                    NAN spec */
    uint8 mapid; /* mapid from NAN spec. Used to differentiate 2G Vs 5G band */
    uint8 PAD[2];
} wl_nan_sched_svc_timeslot_t;

/*
 * WL_NAN_CMD_DATA_DP_IDLE_PERIOD
 */
typedef uint16 wl_nan_ndp_idle_period_t;

/*
 * WL_NAN_CMD_DATA_DP_HB_DURATION
 */
typedef uint16 wl_nan_ndp_hb_duration_t;

/* nan cmd IDs */
enum wl_nan_cmds {
    /* nan cfg /disc & dbg ioctls */
    WL_NAN_CMD_ENABLE = 1,
    WL_NAN_CMD_ATTR = 2,
    WL_NAN_CMD_NAN_JOIN = 3,
    WL_NAN_CMD_LEAVE = 4,
    WL_NAN_CMD_MERGE = 5,
    WL_NAN_CMD_STATUS = 6,
    WL_NAN_CMD_TSRESERVE = 7,
    WL_NAN_CMD_TSSCHEDULE = 8,
    WL_NAN_CMD_TSRELEASE = 9,
    WL_NAN_CMD_OUI = 10,
    WL_NAN_CMD_OOB_AF = 11,
    WL_NAN_CMD_SCAN_PARAMS = 12,

    WL_NAN_CMD_COUNT = 15,
    WL_NAN_CMD_CLEARCOUNT = 16,

    /*  discovery engine commands */
    WL_NAN_CMD_PUBLISH = 20,
    WL_NAN_CMD_SUBSCRIBE = 21,
    WL_NAN_CMD_CANCEL_PUBLISH = 22,
    WL_NAN_CMD_CANCEL_SUBSCRIBE = 23,
    WL_NAN_CMD_TRANSMIT = 24,
    WL_NAN_CMD_CONNECTION = 25,
    WL_NAN_CMD_SHOW = 26,
    WL_NAN_CMD_STOP = 27, /* stop nan for a given cluster ID  */
    /*  nan debug iovars & cmds  */
    WL_NAN_CMD_SCAN = 47,
    WL_NAN_CMD_SCAN_RESULTS = 48,
    WL_NAN_CMD_EVENT_MASK = 49,
    WL_NAN_CMD_EVENT_CHECK = 50,
    WL_NAN_CMD_DUMP = 51,
    WL_NAN_CMD_CLEAR = 52,
    WL_NAN_CMD_RSSI = 53,

    WL_NAN_CMD_DEBUG = 60,
    WL_NAN_CMD_TEST1 = 61,
    WL_NAN_CMD_TEST2 = 62,
    WL_NAN_CMD_TEST3 = 63,
    WL_NAN_CMD_DISC_RESULTS = 64,
    /* nan 2.0 data path commands */
    WL_NAN_CMD_DATAPATH = 65
};

/*   NAN DP interface commands  */
enum wl_nan_dp_cmds {
    /* nan 2.0 ioctls */
    WL_NAN_CMD_DP_CAP = 1000,
    WL_NAN_CMD_DP_CONFIG = 1001,
    WL_NAN_CMD_DP_CREATE = 1002,
    WL_NAN_CMD_DP_AUTO_CONNECT = 1003,
    WL_NAN_CMD_DP_DATA_REQ = 1004,
    WL_NAN_CMD_DP_DATA_RESP = 1005,
    WL_NAN_CMD_DP_SCHED_UPD = 1006,
    WL_NAN_CMD_DP_END = 1007,
    WL_NAN_CMD_DP_CONNECT = 1008,
    WL_NAN_CMD_DP_STATUS = 1009
};

/* Should remove this fixed length */
#define WL_NAN_DATA_SVC_SPEC_INFO_LEN 32 /* arbitrary */
#define WL_NAN_DP_MAX_SVC_INFO 0xFF
#define WL_NAN_DATA_NDP_INST_SUPPORT 16

/* Nan flags (16 bits) */
#define WL_NAN_DP_FLAG_SVC_INFO 0x0001
#define WL_NAN_DP_FLAG_CONFIRM 0x0002
#define WL_NAN_DP_FLAG_EXPLICIT_CFM 0x0004
#define WL_NAN_DP_FLAG_SECURITY 0x0008
#define WL_NAN_DP_FLAG_HAST_NDL_COUNTER 0x0010 /* Host assisted NDL counter */

/* NAN Datapath host status */
#define WL_NAN_DP_STATUS_ACCEPTED 1
#define WL_NAN_DP_STATUS_REJECTED 0

/* to be done */
typedef struct wl_nan_dp_cap {
    uint8 tbd;
} wl_nan_dp_cap_t;

/** The service hash (service id) is exactly this many bytes. */
#define WL_NAN_SVC_HASH_LEN 6
/** Number of hash functions per bloom filter */
#define WL_NAN_HASHES_PER_BLOOM 4
/* no. of max last disc results */
#define WL_NAN_MAX_DISC_RESULTS 3

/* NAN security related defines */
/* NCS-SK related */
#define WL_NAN_NCS_SK_PMK_LEN 32
#define WL_NAN_NCS_SK_PMKID_LEN 16

/* recent discovery results */
typedef struct wl_nan_disc_result_s {
    wl_nan_instance_id_t instance_id; /* instance id of pub/sub req */
    wl_nan_instance_id_t
        peer_instance_id; /* peer instance id of pub/sub req/resp */
    uint8 svc_hash[WL_NAN_SVC_HASH_LEN]; /* service descp string */
    struct ether_addr peer_mac;          /* peer mac address */
} wl_nan_disc_result_t;

/* list of recent discovery results */
typedef struct wl_nan_disc_results_s {
    wl_nan_disc_result_t disc_result[WL_NAN_MAX_DISC_RESULTS];
} wl_nan_disc_results_list_t;

/* nan 1.0 events */
/* To be deprecated - will be replaced by event_disc_result */
typedef struct wl_nan_ev_disc_result {
    wl_nan_instance_id_t pub_id;
    wl_nan_instance_id_t sub_id;
    struct ether_addr pub_mac;
    uint8 opt_tlvs[0];
} wl_nan_ev_disc_result_t;

typedef struct wl_nan_event_disc_result {
    wl_nan_instance_id_t pub_id;
    wl_nan_instance_id_t sub_id;
    struct ether_addr pub_mac;
    int8 publish_rssi; /* publisher RSSI */
    uint8 attr_num;
    uint16 attr_list_len; /* length of the all the attributes in the SDF */
    uint8 attr_list[0];   /* list of NAN attributes */
} wl_nan_event_disc_result_t;

typedef struct wl_nan_ev_p2p_avail {
    struct ether_addr sender;
    struct ether_addr p2p_dev_addr;
    uint8 dev_role;
    uint8 resolution;
    uint8 repeat;
    uint8 pad[3];
    chanspec_t chanspec;
    uint32 avail_bmap;
} wl_nan_ev_p2p_avail_t;

/*
 * discovery interface event structures *
 */

enum wl_nan_oob_af_flags {
    WL_NAN_OOB_AF_FLAG_SEND_EVENT = 0x0001, /* send tx status event */
    WL_NAN_OOB_AF_FLAG_FLUSH_PCB = 0x0002,  /* flush PCB */
    WL_NAN_OOB_AF_FLAG_ADD_DCAP = 0x0004,   /* add dev cap attr into NAF body */
    WL_NAN_OOB_AF_FLAG_ADD_ELMT =
        0x0008, /* add elmt container attr into NAF body */
    WL_NAN_OOB_AF_FLAG_MFP_REQUIRED = 0x0010 /* MFP required */
};
typedef uint16 wl_nan_oob_af_flags_t;

/* mandatory parameters for OOB action frame */
typedef struct wl_nan_oob_af_params_s {
    uint8 fup_lcl_id;  /* local instance ID of follow-up SDF */
    uint8 fup_peer_id; /* peer instance ID of follow-up SDF */
    uint8 sdf_type;    /* represented by service control type NAN_SC_XXX */
    uint8 unused_uint8;
    uint32 unused_uint32;
    struct ether_addr bssid;
    struct ether_addr dest;
    uint32 pkt_lifetime;
    uint8 n2af_sub_type; /* NAN2 AF sub type */
    uint8 retry_cnt;     /* NAF tx retry (not 802.11 re-tx) */
    uint16 token;        /* NAN host seq num */
    uint16 flags;        /* wl_nan_oob_af_flags_t */
    uint32 fsm_id;       /* unique fsm id */
    uint16 payload_len;
    uint8 payload[1];
} wl_nan_oob_af_params_t;

/* NAN Ranging */

/* Bit defines for global flags */
#define WL_NAN_RANGING_ENABLE 1 /**< enable RTT */
#define WL_NAN_RANGING_RANGED 2 /**< Report to host if ranged as target */
typedef struct nan_ranging_config {
    uint32 chanspec; /**< Ranging chanspec */
    uint16 timeslot; /**< NAN RTT start time slot  1-511 */
    uint16 duration; /**< NAN RTT duration in ms */
    struct ether_addr
        allow_mac; /**< peer initiated ranging: the allowed peer mac
                    * address, a unicast (for one peer) or
                    * a broadcast for all. Setting it to all zeros
                    * means responding to none,same as not setting
                    * the flag bit NAN_RANGING_RESPOND
                    */
    uint16 flags;
} wl_nan_ranging_config_t;

/** list of peers for self initiated ranging */
/** Bit defines for per peer flags */
#define WL_NAN_RANGING_REPORT (1 << 0) /**< Enable reporting range to target   \
                                        */
typedef struct nan_ranging_peer {
    uint32 chanspec;      /**< desired chanspec for this peer */
    uint32 abitmap;       /**< available bitmap */
    struct ether_addr ea; /**< peer MAC address */
    uint8 frmcnt;         /**< frame count */
    uint8 retrycnt;       /**< retry count */
    uint16 flags;         /**< per peer flags, report or not */
    uint16 PAD;
} wl_nan_ranging_peer_t;
typedef struct nan_ranging_list {
    uint8 count;          /**< number of MAC addresses */
    uint8 num_peers_done; /**< host set to 0, when read, shows number of peers
                           * completed, success or fail
                           */
    uint8 num_dws; /**< time period to do the ranging, specified in dws */
    uint8 reserve; /**< reserved field */
    wl_nan_ranging_peer_t rp[1]; /**< variable length array of peers */
} wl_nan_ranging_list_t;

/* ranging results, a list for self initiated ranging and one for peer initiated
 * ranging */
/* There will be one structure for each peer */
#define WL_NAN_RANGING_STATUS_SUCCESS 1
#define WL_NAN_RANGING_STATUS_FAIL 2
#define WL_NAN_RANGING_STATUS_TIMEOUT 3
#define WL_NAN_RANGING_STATUS_ABORT                                            \
    4 /**< with partial results if sounding count > 0 */
typedef struct nan_ranging_result {
    uint8 status;         /**< 1: Success, 2: Fail 3: Timeout 4: Aborted */
    uint8 sounding_count; /**< number of measurements completed (0 = failure) */
    struct ether_addr ea; /**< initiator MAC address */
    uint32 chanspec;      /**< Chanspec where the ranging was done */
    uint32
        timestamp; /**< 32bits of the TSF timestamp ranging was completed at */
    uint32 distance; /**< mean distance in meters expressed as Q4 number.
                      * Only valid when sounding_count > 0. Examples:
                      * 0x08 = 0.5m
                      * 0x10 = 1m
                      * 0x18 = 1.5m
                      * set to 0xffffffff to indicate invalid number
                      */
    int32 rtt_var;   /**< standard deviation in 10th of ns of RTTs measured.
                      * Only valid when sounding_count > 0
                      */
    struct ether_addr tgtea; /**< target MAC address */
    uint8 PAD[2];
} wl_nan_ranging_result_t;
typedef struct nan_ranging_event_data {
    uint8 mode; /**< 1: Result of host initiated ranging */
    /* 2: Result of peer initiated ranging */
    uint8 reserved;
    uint8 success_count; /**< number of peers completed successfully */
    uint8 count;         /**< number of peers in the list */
    wl_nan_ranging_result_t rr[1]; /**< variable array of ranging peers */
} wl_nan_ranging_event_data_t;

enum {
    WL_NAN_STATS_RSSI = 1,
    WL_NAN_STATS_DATA = 2,
    WL_NAN_STATS_DP = 3,
    /*
     * ***** ADD before this line ****
     */
    WL_NAN_STATS_INVALID
};
typedef struct wl_nan_dp_stats {
    uint32 tbd;
} wl_nan_dp_stats_t;

typedef struct wl_nan_stats {
    /* general */
    uint32 cnt_dw;           /* DW slots */
    uint32 cnt_disc_bcn_sch; /* disc beacon slots */
    uint32 cnt_amr_exp;      /* count of ambtt expiries resetting roles */
    uint32 cnt_bcn_upd;      /* count of beacon template updates */
    uint32 cnt_bcn_tx;       /* count of sync & disc bcn tx */
    uint32 cnt_bcn_rx;       /* count of sync & disc bcn rx */
    uint32 cnt_sync_bcn_tx;  /* count of sync bcn tx within DW */
    uint32 cnt_disc_bcn_tx;  /* count of disc bcn tx */
    uint32 cnt_sdftx_bcmc;   /* count of bcast/mcast sdf tx */
    uint32 cnt_sdftx_uc;     /* count of unicast sdf tx */
    uint32 cnt_sdftx_fail;   /* count of unicast sdf tx fails */
    uint32 cnt_sdf_rx;       /* count of  sdf rx */
    /* NAN roles */
    uint32 cnt_am;     /* anchor master */
    uint32 cnt_master; /* master */
    uint32 cnt_nms;    /* non master sync */
    uint32 cnt_nmns;   /* non master non sync */
    /* TX */
    uint32
        cnt_err_txtime; /* txtime in sync bcn frame not a multiple of dw intv */
    uint32 cnt_err_unsch_tx; /* tx while not in DW/ disc bcn slot */
    uint32 cnt_err_bcn_tx;   /*  beacon tx error */
    uint32
        cnt_sync_bcn_tx_miss; /* no. of times time delta between 2 cosequetive
                               * sync beacons is more than expected
                               */
    /* MSCH */
    uint32 cnt_err_msch_reg;    /* error is Dw/disc reg with msch */
    uint32 cnt_err_wrong_ch_cb; /* count of msch calbacks in wrong channel */
    uint32 cnt_dw_skip;         /* count of DW rejected */
    uint32 cnt_disc_skip;       /* count of disc bcn rejected */
    uint32 cnt_dw_start_early;  /* msch cb not at registered time */
    uint32 cnt_dw_start_late;   /* no. of delays in slot start */
    /* SCANS */
    uint32 cnt_mrg_scan;       /* count of merge scans completed */
    uint32 cnt_err_ms_rej;     /* number of merge scan failed */
    uint32 cnt_scan_results;   /* no. of nan beacons scanned */
    uint32 cnt_join_scan_rej;  /* no. of join scans rejected */
    uint32 cnt_nan_scan_abort; /* no. of join scans rejected */
    /* enable/disable */
    uint32 cnt_nan_enab;          /* no. of times nan feature got enabled */
    uint32 cnt_nan_disab;         /* no. of times nan feature got disabled */
    uint32 cnt_sync_bcn_rx;       /* count of sync bcn rx within DW */
    uint32 cnt_sync_bcn_rx_tu[3]; /* Delta bw the tsf in bcn & remote */
    uint32 cnt_bcn_tx_out_dw;     /* TX sync beacon outside dw */
    uint32 cnt_role_am_dw;        /* anchor master role due to dw */
    uint32 cnt_am_hop_err;        /* wrong hopcount set for AM */
} wl_nan_stats_t;

#define WL_NAN_MAC_MAX_NAN_PEERS 6
#define WL_NAN_MAC_MAX_RSSI_DATA_PER_PEER 10

typedef struct wl_nan_nbr_rssi {
    uint8 rx_chan; /* channel number on which bcn rcvd */
    uint8 PAD[3];
    int32 rssi_raw; /* received rssi value */
    int32 rssi_avg; /* normalized rssi value */
} wl_nan_peer_rssi_t;

typedef struct wl_nan_peer_rssi_entry {
    struct ether_addr mac; /* peer mac address */
    uint8 flags;    /* rssi data order: latest first, oldest first etc */
    uint8 rssi_cnt; /* rssi data sample present */
    wl_nan_peer_rssi_t
        rssi[WL_NAN_MAC_MAX_RSSI_DATA_PER_PEER]; /* RSSI data frm peer */
} wl_nan_peer_rssi_entry_t;

#define WL_NAN_PEER_RSSI 0x1
#define WL_NAN_PEER_RSSI_LIST 0x2

typedef struct wl_nan_nbr_rssi_data {
    uint8 flags;                       /* this is a list or single rssi data */
    uint8 peer_cnt;                    /* number of peers */
    uint16 pad;                        /* padding */
    wl_nan_peer_rssi_entry_t peers[1]; /* peers data list */
} wl_nan_peer_rssi_data_t;

/* WL_NAN_CMD_DBG_DUMP, GET Resp */
typedef struct wl_nan_dbg_dump_rsp {
    wl_nan_dbg_dump_type_t dump_type; /* dump data type */
    uint8 pad[3];
    union {
        wl_nan_peer_rssi_data_t peer_rssi;
        wl_nan_stats_t nan_stats;
    } u;
} wl_nan_dbg_dump_rsp_t;

enum nan_termination_status {
    NAN_TERM_REASON_INVALID = 1,
    NAN_TERM_REASON_TIMEOUT = 2,
    NAN_TERM_REASON_USER_REQ = 3,
    NAN_TERM_REASON_FAILURE = 4,
    NAN_TERM_REASON_COUNT_REACHED = 5,
    NAN_TERM_REASON_DE_SHUTDOWN = 6,
    NAN_TERM_REASON_DISABLE_IN_PROGRESS = 7
};

/* nan2 data iovar */
/* nan2 qos */
typedef struct wl_nan_dp_qos {
    uint8 tid;
    uint8 pad;
    uint16 pkt_size;
    uint16 mean_rate;
    uint16 svc_interval;
} wl_nan_dp_qos_t;

#define WL_NAN_NDL_QOS_MAX_LAT_NO_PREF 0xFFFF

/* nan2 qos */
typedef struct wl_nan_ndl_qos {
    uint8 min_slots; /* min slots per dw interval */
    uint8 pad;
    uint16 max_latency; /* max latency */
} wl_nan_ndl_qos_t;

/* ndp config */
typedef struct wl_nan_ndp_config {
    uint8 ndp_id;
    uint8 pub_id;
    struct ether_addr pub_addr;
    struct ether_addr data_addr;      /* configure local data addr */
    struct ether_addr init_data_addr; /* initiator data addr */
    uint8 svc_spec_info[WL_NAN_DATA_SVC_SPEC_INFO_LEN];
    wl_nan_dp_qos_t qos;
    uint16 avail_len;
    uint8 pad[3];
    uint8 data[1];
} wl_nan_ndp_config_t;

/* nan2 device capabilities */
typedef struct wl_nan_ndp_oper_cfg {
    uint8 awake_dw_2g;
    uint8 awake_dw_5g;
    uint8 bands_supported;
    uint8 op_mode;
} wl_nan_ndp_oper_cfg_t;

typedef uint8 wl_nan_ndp_ndpid_t;
typedef uint8 wl_nan_ndp_conn_t;

#define WL_NAN_INVALID_NDPID 0 /* reserved ndp id */

typedef struct wl_nan_dp_req {
    uint8 type;   /* 0- unicast 1 - multicast */
    uint8 pub_id; /* Publisher ID */
    uint16 flags;
    struct ether_addr peer_mac;  /* Peer's NMI addr */
    struct ether_addr mcast_mac; /* Multicast addr */
    struct ether_addr ndi;
    wl_nan_dp_qos_t qos;
    wl_nan_ndl_qos_t ndl_qos; /* ndl qos */
    uint8 tlv_params[];       /* xtlv parameters for command */
} wl_nan_dp_req_t;

/* Need to replace ndp_id with lndp_id */
/* Return structure to data req IOVAR */
typedef struct wl_nan_dp_req_ret {
    struct ether_addr indi; /* Initiators data mac addr */
    uint8 ndp_id;           /* Initiators ndpid */
    uint8 pad;
} wl_nan_dp_req_ret_t;

typedef struct wl_nan_dp_resp {
    uint8 type;   /* 0- unicast 1 - multicast */
    uint8 status; /* Accepted or Rejected */
    uint8 reason_code;
    /* Local NDP ID for unicast, mc_id for multicast, 0 for implicit NMSG */
    uint8 ndp_id; /* can be host indp id also */
    wl_nan_dp_qos_t qos;
    /* Initiator data address for unicast or multicast address for multicast */
    struct ether_addr mac_addr;
    struct ether_addr ndi;
    uint16 flags;
    wl_nan_ndl_qos_t ndl_qos; /* ndl qos */
    uint8 tlv_params[];       /* xtlv parameters for command */
} wl_nan_dp_resp_t;

/* Return structure to data resp IOVAR */
typedef struct wl_nan_dp_resp_ret {
    uint8 nmsgid; /* NMSG ID or for multicast else 0 */
    uint8 pad[3];
} wl_nan_dp_resp_ret_t;

typedef struct wl_nan_dp_conf {
    uint8 lndp_id; /* can be host ndp id */
    uint8 status;  /* Accepted or Rejected */
    uint8 pad[2];
} wl_nan_dp_conf_t;

typedef struct wl_nan_dp_end {
    uint8 lndp_id; /* can be host ndp id */
    uint8 status;
    struct ether_addr mac_addr; /* initiator's ndi */
} wl_nan_dp_end_t;

typedef struct wl_nan_dp_schedupd {
    uint8 type; /* 0: unicast, 1: multicast */
    uint8 flags;
    struct ether_addr addr; /* peer NMI or multicast addr */
    wl_nan_dp_qos_t qos;
    wl_nan_ndl_qos_t ndl_qos; /* ndl qos */
    uint8 map_id;
    uint8 pad;
    uint16 hostseq;
} wl_nan_dp_schedupd_t;

/* set: update with notification, unset: NDL setup handshake */
#define WL_NAN_DP_SCHEDUPD_NOTIF (1 << 0)

/* list ndp ids */
typedef struct wl_nan_ndp_id_list {
    uint16 ndp_count;
    uint8 lndp_id[];
} wl_nan_ndp_id_list_t;

/* nan2 status */
typedef struct ndp_session {
    uint8 lndp_id;
    uint8 state;
    uint8 pub_id;
    uint8 pad;
} ndp_session_t;

typedef struct wl_nan_ndp_status {
    struct ether_addr peer_nmi;
    struct ether_addr peer_ndi;
    ndp_session_t session;
    struct ether_addr lndi;
    uint8 pad[2];
} wl_nan_ndp_status_t;

#define NAN_DP_OPAQUE_INFO_DP_RESP 0x01
#define NAN_DP_OPAQUE_INFO_DP_CONF 0x02

typedef struct wl_nan_dp_opaque_info {
    uint8 frm_mask;                  /* dp_resp / dp_conf as defined above. */
    struct ether_addr initiator_ndi; /* NDI to match in the dp_req. */
    uint8 pub_id; /* publish id where the opaque data is included. */
    uint8 len;    /* len of opaque_info[]. */
    uint8 pad[3];
    uint8 opaque_info[0];
} wl_nan_dp_opaque_info_t;

/* events */
#define NAN_DP_SESSION_UNICAST 0
#define NAN_DP_SESSION_MULTICAST 1
#define NAN_DP_SECURITY_NONE 0
#define NAN_DP_SECURITY_CSID 1
#define NAN_DP_SECURITY_MK 2
#define WL_NAN_DATA_NMSGID_LEN 8 /* 8 bytes as per nan spec */

/* Common event structure for Nan Datapath
 * Used for sending NDP Indication, Response, Confirmation, Securty Install and
 * Establish events
 */
typedef struct wl_nan_ev_datapath_cmn {
    uint8 type;
    /* ndp_id is valid only if type is unicast */
    uint8 ndp_id;
    uint8 pub_id;
    uint8 security;
    /* Following two fields are valid only if type is unicast */
    struct ether_addr initiator_ndi;
    struct ether_addr responder_ndi;
    struct ether_addr peer_nmi;
    uint8 status;
    uint8 role;
    /* Following two fields are valid only if type is multicast */
    uint8 nmsg_id[WL_NAN_DATA_NMSGID_LEN];
    uint8 mc_id;
    uint8 pad;
    uint16 opt_tlv_len;
    uint8 opt_tlvs[];
} wl_nan_ev_datapath_cmn_t;

/* this is obsolete - DON'T USE */
typedef struct wl_nan_ev_datapath_end {
    uint8 ndp_id;
    uint8 status;
    uint8 pad[2];
    struct ether_addr peer_nmi;
    struct ether_addr peer_ndi;
} wl_nan_ev_datapath_end_t;

typedef struct wl_tsf {
    uint32 tsf_l;
    uint32 tsf_h;
} wl_tsf_t;

typedef struct wl_nan_ev_rx_bcn {
    wl_tsf_t tsf;
    uint16 bcn_len;
    uint8 pad[2];
    uint8 bcn[0];
} wl_nan_ev_rx_bcn_t;

/* reason of host assist request */
enum wl_nan_host_assist_reason {
    WL_NAN_HAST_REASON_NONE = 0,

    /* reason for host assist request */
    WL_NAN_HAST_REASON_NO_CRB = 1, /* NDL: no common NA */
    WL_NAN_HAST_REASON_NDC = 2,    /* NDL: NDC not compliant */
    WL_NAN_HAST_REASON_IMMUT = 3,  /* NDL: peer immutable schedule */
    WL_NAN_HAST_REASON_RNG = 4,    /* NDL: ranging schedule */
    WL_NAN_HAST_REASON_QOS = 5,    /* NDL: QoS not satisfied */
    WL_NAN_HAST_REASON_SVC_NDI_MISSING =
        6, /* SD: NDI associated with svc is missing */
    WL_NAN_HAST_REASON_PEER_SCB_NORESOURCE =
        7 /* NDP: no more peer scb available */
};
typedef uint8 wl_nan_host_assist_reason_t;

/* WL_NAN_XTLV_HOST_ASSIST_REQ */
typedef struct wl_nan_host_assist_req {
    struct ether_addr peer_nmi;         /* peer nmi */
    struct ether_addr initiator_ndi;    /* initiator ndi */
    uint8 indp_id;                      /* initiator NDP ID */
    wl_nan_frame_type_t frm_type;       /* received NAF type */
    wl_nan_host_assist_reason_t reason; /* reason of host assist request */
    uint8 pub_id; /* Publish ID (valid for WL_NAN_FRM_TYPE_DP_REQ) */
    uint8 pad[2];
} wl_nan_host_assist_req_t;

/* nan sub-features */
enum wl_nan_fw_cap_flag1 {
    WL_NAN_FW_CAP_FLAG_NONE = 0x00000000, /* dummy */
    WL_NAN_FW_CAP_FLAG1_AVAIL = 0x00000001,
    WL_NAN_FW_CAP_FLAG1_DISC = 0x00000002,
    WL_NAN_FW_CAP_FLAG1_DATA = 0x00000004,
    WL_NAN_FW_CAP_FLAG1_SEC = 0x00000008,
    WL_NAN_FW_CAP_FLAG1_RANGE = 0x00000010,
    WL_NAN_FW_CAP_FLAG1_WFA_TB = 0x00000020,
    WL_NAN_FW_CAP_FLAG1_DAM = 0x00000040,
    WL_NAN_FW_CAP_FLAG1_DAM_STRICT = 0x00000080,
    WL_NAN_FW_CAP_FLAG1_DAM_AUTO = 0x00000100,
    WL_NAN_FW_CAP_FLAG1_DBG = 0x00000200,
    WL_NAN_FW_CAP_FLAG1_BCMC_IN_NDC = 0x00000400,
    WL_NAN_FW_CAP_FLAG1_CHSTATS = 0x00000800,
    WL_NAN_FW_CAP_FLAG1_ASSOC_COEX = 0x00001000,
    WL_NAN_FW_CAP_FLAG1_FASTDISC = 0x00002000,
    WL_NAN_FW_CAP_FLAG1_NO_ID_GEN = 0x00004000,
    WL_NAN_FW_CAP_FLAG1_DP_OPAQUE_DATA = 0x00008000,
    WL_NAN_FW_CAP_FLAG1_NSR2 = 0x00010000,
    WL_NAN_FW_CAP_FLAG1_NSR2_SAVE = 0x00020000,
    WL_NAN_FW_CAP_FLAG1_NANHO = 0x00040000
};

/* WL_NAN_XTLV_GEN_FW_CAP */
typedef struct wl_nan_fw_cap {
    uint32 flags1;                /* nan sub-features compiled in firmware */
    uint32 flags2;                /* for more sub-features in future */
    uint8 max_svc_publishes;      /* max num of service publish */
    uint8 max_svc_subscribes;     /* max num of service subscribe */
    uint8 max_lcl_sched_maps;     /* max num of local schedule map */
    uint8 max_lcl_ndc_entries;    /* max num of local NDC entry */
    uint8 max_lcl_ndi_interfaces; /* max num of local NDI interface */
    uint8 max_peer_entries;       /* max num of peer entry */
    uint8 max_ndp_sessions;       /* max num of NDP session */
    uint8 max_concurrent_nan_clusters;    /* max num of concurrent clusters */
    uint16 max_service_name_len;          /* max service name length */
    uint16 max_match_filter_len;          /* max match filter length */
    uint16 max_total_match_filter_len;    /* max total match filter length */
    uint16 max_service_specific_info_len; /* max service specific info length */
    uint16 max_vsa_data_len;  /* max vendor specific attrib data length */
    uint16 max_mesh_data_len; /* max mesh data length */
    uint16 max_app_info_len;  /* max app info length */
    uint16
        max_sdea_svc_specific_info_len; /* max sdea ser specific info length */
    uint8 max_queued_tx_followup_msgs;  /* max no. of queued tx followup msgs */
    uint8 max_subscribe_address;        /* max subscribe addresses supported */
    uint8 ndp_supported_bands;          /* number of ndp supported bands */
    uint8 is_ndp_security_supported;    /* if secure ndp is supported */
    uint8 cipher_suites_supported_mask; /* bitmask for suites supported */
    uint8 pad[3];
} wl_nan_fw_cap_t;

/* WL_NAN_XTLV_GEN_FW_CAP_V2 */
typedef struct wl_nan_fw_cap_v2 {
    uint32 flags1;                /* nan sub-features compiled in firmware */
    uint32 flags2;                /* for more sub-features in future */
    uint8 max_svc_publishes;      /* max num of service publish */
    uint8 max_svc_subscribes;     /* max num of service subscribe */
    uint8 max_lcl_sched_maps;     /* max num of local schedule map */
    uint8 max_lcl_ndc_entries;    /* max num of local NDC entry */
    uint8 max_lcl_ndi_interfaces; /* max num of local NDI interface */
    uint8 max_peer_entries;       /* max num of peer entry */
    uint8 max_peer_sched_maps;    /* max num of peer schedule maps */
    uint8 max_ndp_sessions;       /* max num of NDP session */
    uint32
        cipher_suites_supported_mask; /* bitmask for supported cipher suites */
    uint32 reserved_uint32_1;         /* reserved for future sub-features */
    uint32 reserved_uint32_2;         /* reserved for future sub-features */
    uint32 reserved_uint32_3;         /* reserved for future sub-features */
    uint32 reserved_uint32_4;         /* reserved for future sub-features */
} wl_nan_fw_cap_v2_t;

/* nan cipher suite support mask bits */
#define WL_NAN_CIPHER_SUITE_SHARED_KEY_128_MASK 0x01
#define WL_NAN_CIPHER_SUITE_SHARED_KEY_256_MASK 0x02

/* NAN Save Restore */
#define WL_NAN_NSR2_INFO_MAX_SIZE 2048 /* arbitrary */

/* WL_NAN_XTLV_NSR2_PEER */
typedef struct wl_nan_nsr_peer_info {
    struct ether_addr nmi;
    uint8 l_min_slots;    /* local QoS min slots */
    uint8 p_min_slots;    /* peer QoS min slots */
    uint16 l_max_latency; /* local QoS max latency */
    uint16 p_max_latency; /* peer QoS max latency */
    uint8 num_map;        /* num of NA map */
    uint8 pad;
    uint16 attrs_len; /* total len of following attrs */
    uint8 attrs[]; /* peer attributes (NA/NDC/ULW/DevCap/Element container) */
} wl_nan_nsr_peer_info_t;

enum wl_nan_nsr_ndp_flag {
    WL_NAN_NSR_NDP_FLAG_LCL_INITATOR = 0x0001,
    WL_NAN_NSR_NDP_FLAG_MCAST = 0x0002
};
typedef uint16 wl_nan_nsr_ndp_flag_t;

/* WL_NAN_XTLV_NSR2_NDP */
typedef struct wl_nan_nsr_ndp_info {
    struct ether_addr peer_nmi;
    struct ether_addr peer_ndi;
    struct ether_addr lcl_ndi;
    uint16 flags;     /* wl_nan_nsr_ndp_flag_t */
    uint8 pub_id;     /* publish id */
    uint8 indp_id;    /* initiator's ndp id */
    uint8 last_token; /* last NDP dialog token */
    uint8 pad;
} wl_nan_nsr_ndp_info_t;

/* NAN2.0 Ranging definitions */

/* result indication bit map */
#define NAN_RANGE_INDICATION_NONE 0
#define NAN_RANGE_INDICATION_CONT (1 << 0)
#define NAN_RANGE_INDICATION_INGRESS (1 << 1)
#define NAN_RANGE_INDICATION_EGRESS (1 << 2)

/* responder flags */
#define NAN_RANGE_FLAG_AUTO_ACCEPT (1 << 0)
#define NAN_RANGE_FLAG_RESULT_REQUIRED (1 << 1)

typedef struct wl_nan_range_req {
    struct ether_addr peer;
    uint8 publisher_id;
    uint8 indication;  /* bit map for result event */
    uint32 resolution; /* default millimeters */
    uint32 ingress;    /* ingress limit in mm */
    uint32 egress;     /* egress limit in mm */
    uint32 interval;   /* max interval(in TU) b/w two ranging measurements */
} wl_nan_range_req_t;

#define NAN_RNG_REQ_IOV_LEN 24

typedef uint8 wl_nan_range_id;

typedef struct wl_nan_range_resp {
    wl_nan_range_id range_id;
    uint8 flags;       /* auto response, range result required */
    uint8 status;      /* accept, reject */
    uint8 indication;  /* bit map for result event */
    uint32 resolution; /* default millimeters */
    uint32 ingress;    /* ingress limit in mm */
    uint32 egress;     /* egress limit in mm */
    uint32 interval;   /* max interval(in TU) b/w two ranging measurements */
} wl_nan_range_resp_t;

#define NAN_RNG_RESP_IOV_LEN 20

#define NAN_RNG_TERM_FLAG_IMMEDIATE (1u << 0u)        /* Do not wait for TXS */
#define NAN_RNG_TERM_FLAG_SILIENT_TEARDOWN (1u << 1u) /* Do not TX rng_term */
#define NAN_RNG_TERM_FLAG_EVENT_HOST (1u << 2u)       /* Notify event to host */
#define NAN_RNG_TERM_FLAG_OPT_TLVS (1u << 3u)         /* opt tlvs present */

typedef struct wl_nan_range_cancel_ext {
    wl_nan_range_id range_id;
    uint8 flags;
    uint8 pad[2];
} wl_nan_range_cancel_ext_t;

#define NAN_RNG_CANCEL_IOV_FIXED_LEN 4u

#define NAN_RNG_MAX_IOV_LEN 255

typedef struct wl_nan_ev_rng_req_ind {
    struct ether_addr peer_m_addr;
    uint8 rng_id;
    /* ftm parameters */
    uint8 max_burst_dur;
    uint8 min_ftm_delta;
    uint8 max_num_ftm;
    uint8 ftm_format_bw;
    /* location info availability bit map */
    uint8 lc_info_avail;
    /* Last movement indication */
    uint16 last_movement;
    uint8 pad[2];
} wl_nan_ev_rng_req_ind_t;

#define NAN_RNG_REQ_IND_SIZE 14

typedef struct wl_nan_ev_rng_rpt_ind {
    uint32 dist_mm; /* in millimeter */
    struct ether_addr peer_m_addr;
    uint8 indication; /* indication definitions mentioned above */
    uint8 rng_id;
} wl_nan_ev_rng_rpt_ind_t;

#define NAN_RNG_RPT_IND_SIZE 12

/* number of continuous ranging crbs which can be idle,
 * after which ranging session will be terminated.
 * Default value is 5. Set to zero for disabling the
 * idle timeout functionality
 */
typedef uint8 wl_nan_range_idle_count_t;

/* nan ranging termination reason codes */
#define NAN_RNG_TERM_UNSPECIFIED 0
#define NAN_RNG_TERM_IDLE_TIMEOUT 1u /* no ftms from peer */
#define NAN_RNG_TERM_PEER_REQ 2u
#define NAN_RNG_TERM_USER_REQ 3u
#define NAN_RNG_TERM_RNG_RESP_TIMEOUT                                          \
    4u /* On FSM Timeout, waiting for Resp from peer */
#define NAN_RNG_TERM_RNG_RESP_REJ 5u /* On range resp, reject from peer */
#define NAN_RNG_TERM_RNG_TXS_FAIL 6u /* On range req/resp txs fail */

typedef struct wl_nan_ev_rng_term_ind {
    struct ether_addr peer_m_addr;
    uint8 reason_code;
    uint8 rng_id;
} wl_nan_ev_rng_term_ind_t;

#define NAN_RNG_TERM_IND_SIZE 8

typedef struct wl_nan_ev_rng_resp {
    struct ether_addr peer_m_addr;
    uint8 status;
    uint8 rng_id;
} wl_nan_ev_rng_resp_t;

/* Used by NDL schedule events -
 * WL_NAN_EVENT_PEER_SCHED_UPD_NOTIF, WL_NAN_EVENT_PEER_SCHED_REQ
 * WL_NAN_EVENT_PEER_SCHED_RESP, WL_NAN_EVENT_PEER_SCHED_CONF
 */
typedef struct wl_nan_ev_sched_info {
    struct ether_addr peer_nmi;
    uint8 ndl_status; /* applies only to sched resp/conf */
    uint8 pad;
    uint16 opt_tlv_len;
    uint8 opt_tlvs[];
} wl_nan_ev_sched_info_t;

/* WL_NAN_EVENT_CHAN_BOUNDARY */
typedef struct wl_nan_chbound_info {
    uint32 cluster_tsf_h; /* Current Cluster TSF High */
    uint32 cluster_tsf_l; /* Current Cluster TSF Low */
    uint16 cur_chspec;
    uint16 opt_tlvs_len;
    uint8 opt_tlvs[];
} wl_nan_chbound_info_t;

/* channel stats (includes nan & non-nan) */

/* WL_NAN_XTLV_CCA_STATS */
typedef struct wl_nan_cca_stats {
    uint16 chanspec;
    uint8 pad[2];
    uint32 sample_dur;

    uint32 congest_ibss;
    uint32 congest_obss;
    uint32 interference;
} wl_nan_cca_stats_t;

/* WL_NAN_XTLV_PER_STATS */
typedef struct wl_nan_per_stats_s {
    uint16 chanspec;
    uint8 pad[2];
    uint32 sample_dur;

    uint32 txframe;   /* tx data frames */
    uint32 txretrans; /* tx mac retransmits */
    uint32 txerror;   /* tx data errors  */
    uint32 txctl;     /* tx management frames */
    uint32 txserr;    /* tx status errors */

    uint32 rxframe; /* rx data frames */
    uint32 rxerror; /* rx data errors */
    uint32 rxctl;   /* rx management frames */

    uint32 txbar;    /* tx bar */
    uint32 rxbar;    /* rx bar */
    uint32 txaction; /* tx action frame */
    uint32 rxaction; /* rx action frame */
    uint32 txlost;   /* lost packets reported in txs */
    uint32 rxback;   /* rx block ack */
    uint32 txback;   /* tx bloak ack */
} wl_nan_per_stats_t;

/* fast discovery beacon config
 * WL_NAN_XTLV_CFG_FDISC_TBMP
 */
typedef struct wl_nan_fastdisc_s {
    uint8 id;
    uint8 bitmap_len;
    uint8 pad[2];
    uint8 bitmap[];
} wl_nan_fastdisc_t;

#define WL_NAN_FASTDISC_CFG_SIZE 1024 /* arbitrary */

/* ********************* end of NAN section ******************************** */
/* endif WL_NAN */

#define P2P_NAN_IOC_BUFSZ 512 /* some sufficient ioc buff size */
#define WL_P2P_NAN_IOCTL_VERSION 0x1

/* container for p2p nan iovtls & events */
typedef struct wl_p2p_nan_ioc {
    uint16 version; /* interface command or event version */
    uint16 id;      /* p2p nan ioctl cmd  ID  */
    uint16 len;     /* total length of data[]  */
    uint16 pad;     /* padding */
    uint8 data[];   /* var len payload of bcm_xtlv_t type */
} wl_p2p_nan_ioc_t;

/* p2p nan cmd IDs */
enum wl_p2p_nan_cmds {
    /* p2p nan cfg ioctls */
    WL_P2P_NAN_CMD_ENABLE = 1,
    WL_P2P_NAN_CMD_CONFIG = 2,
    WL_P2P_NAN_CMD_DEL_CONFIG = 3,
    WL_P2P_NAN_CMD_GET_INSTS = 4
};

#define WL_P2P_NAN_CONFIG_VERSION 1

#define WL_P2P_NAN_DEVICE_P2P 0x0
#define WL_P2P_NAN_DEVICE_GO 0x1
#define WL_P2P_NAN_DEVICE_GC 0x2
#define WL_P2P_NAN_DEVICE_INVAL 0xFF

/* NAN P2P operation */
typedef struct p2p_nan_config {
    uint16 version;   /* wl_p2p_nan_config_t structure version */
    uint16 len;       /* total length including version and variable IE */
    uint32 flags;     /* 0x1 to NEW, 0x2 to ADD, 0x4 to DEL */
    uint8 inst_id;    /* publisher/subscriber id */
    uint8 inst_type;  /* publisher/subscriber */
    uint8 dev_role;   /* P2P device role: 'P2P','GO' or 'GC' */
    uint8 pad1;       /* padding */
    uint8 resolution; /* Availability bitmap resolution */
    uint8 repeat;     /* Whether Availabilty repeat across DW */
    uint16 ie_len;    /* variable ie len */
    struct ether_addr dev_mac; /* P2P device addres */
    uint16 pad2;               /* Padding */
    uint32 avail_bmap;         /* availability interval bitmap */
    uint32 chanspec;           /* Chanspec */
    uint8 ie[];                /* hex ie data */
} wl_p2p_nan_config_t;

#define WL_P2P_NAN_SERVICE_LIST_VERSION 1
typedef enum wl_nan_service_type {
    WL_NAN_SVC_INST_PUBLISHER = 1,
    WL_NAN_SVC_INST_SUBSCRIBER = 2
} wl_nan_service_type_t;

#define WL_P2P_NAN_CONFIG_NEW 0x1
#define WL_P2P_NAN_CONFIG_ADD 0x2
#define WL_P2P_NAN_CONFIG_DEL 0x4

typedef struct wl_nan_svc_inst {
    uint8 inst_id;   /* publisher/subscriber id */
    uint8 inst_type; /* publisher/subscriber */
} wl_nan_svc_inst_t;

typedef struct wl_nan_svc_inst_list {
    uint16 version; /* this structure version */
    uint16 len;     /* total length including version and variable svc list */
    uint16 count;   /* service instance count */
    uint16 pad;     /* padding */
    wl_nan_svc_inst_t svc[1]; /* service instance list */
} wl_nan_svc_inst_list_t;

#define NAN_POST_DISC_P2P_DATA_VER 1
/* This structure will be used send peer p2p data with
 * NAN discovery result
 */
typedef struct nan_post_disc_p2p_data {
    uint8 ver;                 /* this structure version */
    uint8 dev_role;            /* P2P Device role */
    uint8 resolution;          /* Availability bitmap resolution */
    uint8 repeat;              /* Whether Availabilty repeat across DW */
    struct ether_addr dev_mac; /* P2P device addres */
    uint16 pad1;               /* Padding */
    uint32 chanspec;           /* Chanspec */
    uint32 avl_bmp;            /* availability interval bitmap */
} nan_post_disc_p2p_data_t;

enum {
    WL_AVAIL_NONE = 0x0000,
    WL_AVAIL_LOCAL = 0x0001,
    WL_AVAIL_PEER = 0x0002,
    WL_AVAIL_NDC = 0x0003,
    WL_AVAIL_IMMUTABLE = 0x0004,
    WL_AVAIL_RESPONSE = 0x0005,
    WL_AVAIL_COUNTER = 0x0006,
    WL_AVAIL_RANGING = 0x0007,
    WL_AVAIL_UPD_POT =
        0x0008, /* modify potential, keep committed/conditional */
    WL_AVAIL_UPD_COM_COND =
        0x0009, /* modify committed/conditional, keep potential */
    WL_AVAIL_REMOVE_MAP = 0x000A, /* remove map */
    WL_AVAIL_FRM_TYPE = 0x000B,   /* specify frame types containing NA */
    WL_AVAIL_TYPE_MAX = WL_AVAIL_FRM_TYPE /* New ones before and update */
};
#define WL_AVAIL_TYPE_MASK 0x000F
#define WL_AVAIL_FLAG_REMOVE                                                   \
    0x2000 /* remove schedule attr of given type & map id */
#define WL_AVAIL_FLAG_SELECTED_NDC 0x4000
#define WL_AVAIL_FLAG_RAW_MODE 0x8000
#define WL_AVAIL_FLAGS_MASK 0xFF00
#define WL_AVAIL_FLAGS_SHIFT 8

typedef int16 wl_avail_flags_t;

/* availability entry flags */
enum {
    WL_AVAIL_ENTRY_NONE = 0x0000,
    WL_AVAIL_ENTRY_COM = 0x0001,          /* committed */
    WL_AVAIL_ENTRY_POT = 0x0002,          /* potential */
    WL_AVAIL_ENTRY_COND = 0x0004,         /* conditional */
    WL_AVAIL_ENTRY_PAGED = 0x0008,        /* P-NDL */
    WL_AVAIL_ENTRY_USAGE = 0x0030,        /* usage preference */
    WL_AVAIL_ENTRY_BIT_DUR = 0x00C0,      /* bit duration */
    WL_AVAIL_ENTRY_BAND_PRESENT = 0x0100, /* band present */
    WL_AVAIL_ENTRY_CHAN_PRESENT = 0x0200, /* channel information present */
    WL_AVAIL_ENTRY_CHAN_ENTRY_PRESENT =
        0x0400, /* channel entry (opclass+bitmap) */
    /* free to use 0x0800 */
    WL_AVAIL_ENTRY_RXNSS = 0xF000 /* max num of spatial stream RX */
};

/* bit duration */
enum {
    WL_AVAIL_BIT_DUR_16 = 0,  /* 16TU */
    WL_AVAIL_BIT_DUR_32 = 1,  /* 32TU */
    WL_AVAIL_BIT_DUR_64 = 2,  /* 64TU */
    WL_AVAIL_BIT_DUR_128 = 3, /* 128TU */
};

/* period */
enum {
    WL_AVAIL_PERIOD_0 = 0,    /* 0TU */
    WL_AVAIL_PERIOD_128 = 1,  /* 128TU */
    WL_AVAIL_PERIOD_256 = 2,  /* 256TU */
    WL_AVAIL_PERIOD_512 = 3,  /* 512TU */
    WL_AVAIL_PERIOD_1024 = 4, /* 1024TU */
    WL_AVAIL_PERIOD_2048 = 5, /* 2048TU */
    WL_AVAIL_PERIOD_4096 = 6, /* 4096TU */
    WL_AVAIL_PERIOD_8192 = 7, /* 8192TU */
};

/* band */
enum {
    WL_AVAIL_BAND_NONE = 0,  /* reserved */
    WL_AVAIL_BAND_SUB1G = 1, /* sub-1 GHz */
    WL_AVAIL_BAND_2G = 2,    /* 2.4 GHz */
    WL_AVAIL_BAND_3G = 3,    /* reserved (for 3.6 GHz) */
    WL_AVAIL_BAND_5G = 4,    /* 4.9 and 5 GHz */
    WL_AVAIL_BAND_60G = 5,   /* reserved (for 60 GHz) */
};

#define WL_AVAIL_ENTRY_TYPE_MASK 0x000F
#define WL_AVAIL_ENTRY_USAGE_MASK 0x0030 /* up to 4 usage preferences */
#define WL_AVAIL_ENTRY_USAGE_SHIFT 4
#define WL_AVAIL_ENTRY_USAGE_VAL(_flags)                                       \
    (((_flags)&WL_AVAIL_ENTRY_USAGE_MASK) >> WL_AVAIL_ENTRY_USAGE_SHIFT)

#define WL_AVAIL_ENTRY_BIT_DUR_MASK 0x00C0 /* 0:16TU, 1:32TU, 2:64TU, 3:128TU  \
                                            */
#define WL_AVAIL_ENTRY_BIT_DUR_SHIFT 6
#define WL_AVAIL_ENTRY_BIT_DUR_VAL(_flags)                                     \
    (((_flags)&WL_AVAIL_ENTRY_BIT_DUR_MASK) >> WL_AVAIL_ENTRY_BIT_DUR_SHIFT)

#define WL_AVAIL_ENTRY_BAND_MASK 0x0100 /* 0=band not present, 1=present */
#define WL_AVAIL_ENTRY_BAND_SHIFT 8

#define WL_AVAIL_ENTRY_CHAN_MASK                                               \
    0x0200 /* 0=channel info not present, 1=present */
#define WL_AVAIL_ENTRY_CHAN_SHIFT 9

#define WL_AVAIL_ENTRY_CHAN_ENTRY_MASK                                         \
    0x0400 /* 0=chanspec, 1=hex channel entry */
#define WL_AVAIL_ENTRY_CHAN_ENTRY_SHIFT 10

#define WL_AVAIL_ENTRY_RXNSS_MASK 0xF000
#define WL_AVAIL_ENTRY_RXNSS_SHIFT 12
#define WL_AVAIL_ENTRY_RXNSS_VAL(_flags)                                       \
    (((_flags)&WL_AVAIL_ENTRY_RXNSS_MASK) >> WL_AVAIL_ENTRY_RXNSS_SHIFT)
#define WL_AVAIL_ENTRY_RXNSS_MAX 15 /* 0-15 */

/* mask for channel_entry (to be obsoleted) */
#define WL_AVAIL_ENTRY_OPCLASS_MASK 0xFF
#define WL_AVAIL_ENTRY_CHAN_BITMAP_MASK 0xFF00
#define WL_AVAIL_ENTRY_CHAN_BITMAP_SHIFT 8
#define WL_AVAIL_ENTRY_CHAN_BITMAP_VAL(_info)                                  \
    (((_info)&WL_AVAIL_ENTRY_CHAN_BITMAP_MASK) >>                              \
     WL_AVAIL_ENTRY_CHAN_BITMAP_SHIFT)

/* Used for raw channel entry field input */
#define MAX_CHAN_ENTRY_LEN 6

typedef struct wl_avail_entry {
    uint16 length;       /* total length */
    uint16 start_offset; /* in TUs, multiply by 16 for total offset */
    union {
        uint32 channel_info; /* either chanspec or hex channel entry (opclass +
                              * bitmap per NAN spec), as indicated by setting
                              * WL_AVAIL_ENTRY_HEX_CHAN_ENTRY flag
                              */
        uint32 band;         /* defined by WL_BAND enum, 2=2.4GHz, 4=5GHz */
        uint8 channel_entry[MAX_CHAN_ENTRY_LEN];
        uint8 align[8]; /* aligned len of union in structure (not for use)
                         * if member of union is changed,
                         * update length of align[] accordingly.
                         */
    } u;                /* band or channel value, 0=all band/channels */
    uint8 sched_map_id; /* avail map id associated with sched entry */
    uint8 pad;
    uint8 period; /* in TUs, defined by WL_AVAIL_PERIOD enum
                   * 1:128, 2:256, 3:512, 4:1024, 5:2048, 6:4096,
                   * 7:8192
                   */
    uint8 bitmap_len;
    uint16 flags;   /* defined by avail entry flags enum:
                     * type, usage pref, bit duration, rx nss,
                     * and band, channel or channel entry
                     */
    uint8 bitmap[]; /* time bitmap */
} wl_avail_entry_t;

#define WL_AVAIL_VERSION 1 /* current wl_avail version */

typedef struct wl_avail {
    uint16 length; /* total length */
    uint16 flags;  /* LSB - avail type (defined by WL_AVAIL enum)
                    * MSB - avail flags
                    */
    uint8 id;      /* id used for multiple maps/avail */
    uint8 lndc_id; /* ndc id used in multi-ndc case */
    uint8 version;
    uint8 pad;
    struct ether_addr addr; /* peer mac address or ndc id */
    uint8 num_entries;
    uint8 unused_byte;
    /* add additional fields above this line */
    uint8 entry[];
} wl_avail_t;

#define WL_AVAIL_MIN_LEN(n)                                                    \
    ((n) ? OFFSETOF(wl_avail_t, entry) +                                       \
               ((n)*OFFSETOF(wl_avail_entry_t, bitmap))                        \
         : 0)

/* unaligned schedule (window) */
typedef struct wl_avail_ulw {
    uint8 id;        /* schedule ID */
    uint8 overwrite; /* bit 0: overwrite all
                      * 1-4: map ID if overwrite all is 0
                      */
    uint16 flags;
    uint32 start;  /* start time of first ULW, in us */
    uint32 dur;    /* duration of ULW, in us */
    uint32 period; /* time between consecutive ULWs, in us */
    union {
        uint32 chanspec;
        uint32 band;
        uint8 chan_entry[MAX_CHAN_ENTRY_LEN];
        uint8 pad[8];
    } u;
    uint8 cntdwn; /* remaining ULWs before schedule ends */
    uint8 pad[3];
} wl_avail_ulw_t;

/* unset: NAN is not available during ULW, set: NAN is avail depending on ctrl
 * flags */
#define WL_NAN_ULW_CTRL_PRESENT (1 << 0)
/* unset: band, set: channel */
#define WL_NAN_ULW_CTRL_TYPE (1 << 1)
/* set: NAN is availabile on specified band/channel */
#define WL_NAN_ULW_CTRL_AVAIL (1 << 2)
/* channel is provided in raw attribute format */
#define WL_NAN_ULW_CTRL_RAW_CHAN (1 << 3)

/* nan wfa testmode operations */
enum {
    WL_NAN_WFA_TM_IGNORE_TERMINATE_NAF = 0x00000001,
    WL_NAN_WFA_TM_IGNORE_RX_DATA_OUTSIDE_CRB = 0x00000002,
    WL_NAN_WFA_TM_ALLOW_TX_DATA_OUTSIDE_CRB = 0x00000004,
    WL_NAN_WFA_TM_ENFORCE_NDL_COUNTER = 0x00000008,
    WL_NAN_WFA_TM_BYPASS_NDL_PROPOSAL_VALIDATION = 0x00000010,
    /* allow data(pings) tx while ndp sec negotiation */
    WL_NAN_WFA_TM_SEC_SEND_PINGS_BYPASS_NDP_SM = 0x00000020,
    /* generate and insert incorrect mic */
    WL_NAN_WFA_TM_SEC_INCORRECT_MIC = 0x00000040,
    /* send m4 reject deliberately */
    WL_NAN_WFA_TM_SEC_REJECT_STATUS4M4 = 0x00000080,
    /* send mgmt frame (for eg. ndp terminate) in clear txt (bypass security) */
    WL_NAN_WFA_TM_SEC_SEND_MGMT_CLEAR = 0x00000100,
    /* validate qos */
    WL_NAN_WFA_TM_NDL_QOS_VALIDATE = 0x00000200,
    /* firmware generated schedule update */
    WL_NAN_WFA_TM_GEN_SCHED_UPD = 0x00000400,
    /* add lower 4-bytes of TSF to configured start time */
    WL_NAN_WFA_TM_ULW_START_TIME = 0x00000800,
    /* enable schedule validation for SDF */
    WL_NAN_WFA_TM_SDF_SCHED_VALIDATE = 0x00001000,
    /* by pass faw na iovar */
    WL_NAN_WFA_TM_SKIP_RAW_NA_BLOB = 0x00002000,
    /* overwrite local NA with peer NA in received frame */
    WL_NAN_WFA_TM_LOCAL_NA_OVERWRITE = 0x00004000,
    /* randomize and self configure ndl qos(needed at responder in auto mode) */
    WL_NAN_WFA_TM_SELF_CFG_NDL_QOS = 0x00008000,
    /* send NAF frames only in DW */
    WL_NAN_WFA_TM_SEND_NAF_IN_DW = 0x00010000,
    /* restrict channels used for countered slots to Ch 6/149 only */
    WL_NAN_WFA_TM_RESTRICT_COUNTER_SLOTS_CHAN = 0x00020000,
    /* NDPE negative test case (4.2.5 & 4.2.6) */
    WL_NAN_WFA_TM_NDPE_NEGATIVE_TEST_TB = 0x00040000,
    /* Set NDPE(NAN3.0) capable bit in dev cap attr */
    WL_NAN_WFA_TM_ENABLE_NDPE_CAP = 0x00080000,
    /* NDPE negative test case (4.2.5.2). Enable both NDP and NDPE attributes */
    WL_NAN_WFA_TM_ENABLE_NDP_NDPE_ATTR = 0x00100000,

    /* add above & update mask */
    WL_NAN_WFA_TM_FLAG_MASK = 0x001FFFFF
};
typedef uint32 wl_nan_wfa_testmode_t;

/* To be removed; replaced by wl_nan_vndr_payload */
typedef struct wl_nan_vndr_ie {
    uint32 flags;    /* bitmask indicating which packet(s) contain this IE */
    uint16 body_len; /* length of body (does not include oui field) */
    uint8 pad[2];
    uint8 oui[DOT11_OUI_LEN];
    uint8 pad2;
    uint8 body[]; /* vendor IE payload */
} wl_nan_vndr_ie_t;

typedef struct wl_nan_vndr_payload {
    uint32 flags;       /* bitmask indicating which packet(s) contain payload */
    uint16 payload_len; /* length of payload */
    uint8 pad[2];
    uint8 payload[]; /* payload to be appended to NAN frame */
} wl_nan_vndr_payload_t;

typedef struct wl_nan_dev_cap {
    uint8 bands[NAN_MAX_BANDS];
    uint8 awake_dw[NAN_MAX_BANDS];
    uint8 overwrite_mapid[NAN_MAX_BANDS];
    uint8 mapid;    /* dev cap mapid */
    uint8 all_maps; /* applies to device */
    uint8 paging;
    uint8 pad[3];
} wl_nan_dev_cap_t;

/* arbitrary max len for frame template */
#define WL_NAN_FRM_TPLT_MAX_LEN 1024

typedef struct wl_nan_frm_tplt {
    wl_nan_frame_type_t type;
    uint8 pad;
    uint16 len;   /* length of template */
    uint8 data[]; /* template */
} wl_nan_frm_tplt_t;

#define RSSI_THRESHOLD_SIZE 16
#define MAX_IMP_RESP_SIZE 256

typedef struct wl_proxd_rssi_bias {
    int32 version;                        /**< version */
    int32 threshold[RSSI_THRESHOLD_SIZE]; /**< threshold */
    int32 peak_offset;                    /**< peak offset */
    int32 bias;                           /**< rssi bias */
    int32 gd_delta;                       /**< GD - GD_ADJ */
    int32 imp_resp[MAX_IMP_RESP_SIZE];    /**< (Hi*Hi)+(Hr*Hr) */
} wl_proxd_rssi_bias_t;

typedef struct wl_proxd_rssi_bias_avg {
    int32 avg_threshold[RSSI_THRESHOLD_SIZE]; /**< avg threshold */
    int32 avg_peak_offset;                    /**< avg peak offset */
    int32 avg_rssi;                           /**< avg rssi */
    int32 avg_bias;                           /**< avg bias */
} wl_proxd_rssi_bias_avg_t;

#include <packed_section_start.h>
typedef BWL_PRE_PACKED_STRUCT struct wl_proxd_collect_info {
    uint16 type;  /**< type: 0 channel table, 1 channel smoothing table, 2 and 3
                     seq */
    uint16 index; /**< The current frame index, from 1 to total_frames. */
    uint16 tof_cmd;     /**< M_TOF_CMD      */
    uint16 tof_rsp;     /**< M_TOF_RSP      */
    uint16 tof_avb_rxl; /**< M_TOF_AVB_RX_L */
    uint16 tof_avb_rxh; /**< M_TOF_AVB_RX_H */
    uint16 tof_avb_txl; /**< M_TOF_AVB_TX_L */
    uint16 tof_avb_txh; /**< M_TOF_AVB_TX_H */
    uint16 tof_id;      /**< M_TOF_ID */
    uint8 tof_frame_type;
    uint8 tof_frame_bw;
    int8 tof_rssi;
    int32 tof_cfo;
    int32 gd_adj_ns;   /**< gound delay */
    int32 gd_h_adj_ns; /**< group delay + threshold crossing */
    int16 nfft;        /**< number of samples stored in H */
    uint8 num_max_cores;

} BWL_POST_PACKED_STRUCT wl_proxd_collect_info_t;
#include <packed_section_end.h>

#define K_TOF_COLLECT_H_PAD 1
#define K_TOF_COLLECT_SC_20MHZ (64)
/* Maximum possible size of sample capture */
#define K_TOF_COLLECT_SC_80MHZ (2 * K_TOF_COLLECT_SC_20MHZ)
/* Maximum possible size of channel dump */
#define K_TOF_COLLECT_CHAN_SIZE (2 * K_TOF_COLLECT_SC_80MHZ)

/*
A few extra samples are required to estimate frequency offset
Right now 16 samples are being used. Can be changed in future.
*/
#define K_TOF_COLLECT_SAMP_SIZE_20MHZ                                          \
    (2 * (K_TOF_COLLECT_SC_20MHZ) + 16 + K_TOF_COLLECT_H_PAD)
#define K_TOF_COLLECT_RAW_SAMP_SIZE_20MHZ (2 * K_TOF_COLLECT_SAMP_SIZE_20MHZ)
#define K_TOF_COLLECT_H_SIZE_20MHZ (K_TOF_COLLECT_SAMP_SIZE_20MHZ)
#define K_TOF_COLLECT_HRAW_SIZE_20MHZ (K_TOF_COLLECT_RAW_SAMP_SIZE_20MHZ)

#define K_TOF_COLLECT_SAMP_SIZE_80MHZ                                          \
    (2 * (K_TOF_COLLECT_SC_80MHZ) + 16 + K_TOF_COLLECT_H_PAD)
#define K_TOF_COLLECT_RAW_SAMP_SIZE_80MHZ (2 * K_TOF_COLLECT_SAMP_SIZE_80MHZ)
#define K_TOF_COLLECT_H_SIZE_80MHZ (K_TOF_COLLECT_SAMP_SIZE_80MHZ)
#define K_TOF_COLLECT_HRAW_SIZE_80MHZ (K_TOF_COLLECT_RAW_SAMP_SIZE_80MHZ)

#define WL_PROXD_COLLECT_DATA_VERSION_1 1
#include <packed_section_start.h>
typedef BWL_PRE_PACKED_STRUCT struct wl_proxd_collect_data_v1 {
    wl_proxd_collect_info_t info;
    uint8 ri_rr[FTM_TPK_RI_RR_LEN];
    /**< raw data read from phy used to adjust timestamps */
    uint32 H[K_TOF_COLLECT_H_SIZE_20MHZ];
} BWL_POST_PACKED_STRUCT wl_proxd_collect_data_t_v1;
#include <packed_section_end.h>

#define WL_PROXD_COLLECT_DATA_VERSION_2 2
#include <packed_section_start.h>
typedef BWL_PRE_PACKED_STRUCT struct wl_proxd_collect_data_v2 {
    wl_proxd_collect_info_t info;
    uint8 ri_rr[FTM_TPK_RI_RR_LEN_SECURE_2_0];
    /**< raw data read from phy used to adjust timestamps */
    uint32 H[K_TOF_COLLECT_H_SIZE_20MHZ];
} BWL_POST_PACKED_STRUCT wl_proxd_collect_data_t_v2;
#include <packed_section_end.h>

#define WL_PROXD_COLLECT_DATA_VERSION_3 3
typedef struct wl_proxd_collect_data_v3 {
    uint16 version;
    uint16 len;
    wl_proxd_collect_info_t info;
    uint8 ri_rr[FTM_TPK_RI_RR_LEN_SECURE_2_0];
    /**< raw data read from phy used to adjust timestamps */
    uint32 H[K_TOF_COLLECT_H_SIZE_20MHZ];
    uint32 chan[4 * K_TOF_COLLECT_CHAN_SIZE];
} wl_proxd_collect_data_t_v3;
#define WL_PROXD_COLLECT_DATA_VERSION_MAX WL_PROXD_COLLECT_DATA_VERSION_3

typedef struct wl_proxd_debug_data {
    uint8 count;          /**< number of packets */
    uint8 stage;          /**< state machone stage */
    uint8 received;       /**< received or txed */
    uint8 paket_type;     /**< packet type */
    uint8 category;       /**< category field */
    uint8 action;         /**< action field */
    uint8 token;          /**< token number */
    uint8 follow_token;   /**< following token number */
    uint16 index;         /**< index of the packet */
    uint16 tof_cmd;       /**< M_TOF_CMD */
    uint16 tof_rsp;       /**< M_TOF_RSP */
    uint16 tof_avb_rxl;   /**< M_TOF_AVB_RX_L */
    uint16 tof_avb_rxh;   /**< M_TOF_AVB_RX_H */
    uint16 tof_avb_txl;   /**< M_TOF_AVB_TX_L */
    uint16 tof_avb_txh;   /**< M_TOF_AVB_TX_H */
    uint16 tof_id;        /**< M_TOF_ID */
    uint16 tof_status0;   /**< M_TOF_STATUS_0 */
    uint16 tof_status2;   /**< M_TOF_STATUS_2 */
    uint16 tof_chsm0;     /**< M_TOF_CHNSM_0 */
    uint16 tof_phyctl0;   /**< M_TOF_PHYCTL0 */
    uint16 tof_phyctl1;   /**< M_TOF_PHYCTL1 */
    uint16 tof_phyctl2;   /**< M_TOF_PHYCTL2 */
    uint16 tof_lsig;      /**< M_TOF_LSIG */
    uint16 tof_vhta0;     /**< M_TOF_VHTA0 */
    uint16 tof_vhta1;     /**< M_TOF_VHTA1 */
    uint16 tof_vhta2;     /**< M_TOF_VHTA2 */
    uint16 tof_vhtb0;     /**< M_TOF_VHTB0 */
    uint16 tof_vhtb1;     /**< M_TOF_VHTB1 */
    uint16 tof_apmductl;  /**< M_TOF_AMPDU_CTL */
    uint16 tof_apmdudlim; /**< M_TOF_AMPDU_DLIM */
    uint16 tof_apmdulen;  /**< M_TOF_AMPDU_LEN */
} wl_proxd_debug_data_t;

/** version of the wl_wsec_info structure */
#define WL_WSEC_INFO_VERSION 0x01

/** start enum value for BSS properties */
#define WL_WSEC_INFO_BSS_BASE 0x0100

/** size of len and type fields of wl_wsec_info_tlv_t struct */
#define WL_WSEC_INFO_TLV_HDR_LEN OFFSETOF(wl_wsec_info_tlv_t, data)

/** Allowed wl_wsec_info properties; not all of them may be supported. */
typedef enum {
    WL_WSEC_INFO_NONE = 0,
    WL_WSEC_INFO_MAX_KEYS = 1,
    WL_WSEC_INFO_NUM_KEYS = 2,
    WL_WSEC_INFO_NUM_HW_KEYS = 3,
    WL_WSEC_INFO_MAX_KEY_IDX = 4,
    WL_WSEC_INFO_NUM_REPLAY_CNTRS = 5,
    WL_WSEC_INFO_SUPPORTED_ALGOS = 6,
    WL_WSEC_INFO_MAX_KEY_LEN = 7,
    WL_WSEC_INFO_FLAGS = 8,
    /* add global/per-wlc properties above */
    WL_WSEC_INFO_BSS_FLAGS = (WL_WSEC_INFO_BSS_BASE + 1),
    WL_WSEC_INFO_BSS_WSEC = (WL_WSEC_INFO_BSS_BASE + 2),
    WL_WSEC_INFO_BSS_TX_KEY_ID = (WL_WSEC_INFO_BSS_BASE + 3),
    WL_WSEC_INFO_BSS_ALGO = (WL_WSEC_INFO_BSS_BASE + 4),
    WL_WSEC_INFO_BSS_KEY_LEN = (WL_WSEC_INFO_BSS_BASE + 5),
    WL_WSEC_INFO_BSS_ALGOS = (WL_WSEC_INFO_BSS_BASE + 6),
    WL_WSEC_INFO_BSS_WPA_AP_RESTRICT = (WL_WSEC_INFO_BSS_BASE + 7),
    /* add per-BSS properties above */
    WL_WSEC_INFO_MAX = 0xffff
} wl_wsec_info_type_t;

typedef struct {
    uint32 algos; /* set algos to be enabled/disabled */
    uint32 mask;  /* algos outside mask unaltered */
} wl_wsec_info_algos_t;

/** tlv used to return wl_wsec_info properties */
typedef struct {
    uint16 type;
    uint16 len;    /**< data length */
    uint8 data[1]; /**< data follows */
} wl_wsec_info_tlv_t;

/** input/output data type for wsec_info iovar */
typedef struct wl_wsec_info {
    uint8 version; /**< structure version */
    uint8 pad[2];
    uint8 num_tlvs;
    wl_wsec_info_tlv_t tlvs[1]; /**< tlv data follows */
} wl_wsec_info_t;
#define AP_BLOCK_NONE 0x0000      /* default: No restriction */
#define AP_ALLOW_WPA2 0x0001      /* allow WPA2PSK AP */
#define AP_ALLOW_TSN 0x0002       /* WPA3 transition AP  */
#define AP_ALLOW_WPA3_ONLY 0x0004 /* WPA3 only AP */
#define AP_ALLOW_MAX (AP_ALLOW_WPA2 | AP_ALLOW_TSN | AP_ALLOW_WPA3_ONLY)
typedef struct {
    uint32 wpa_ap_restrict; /* set WPA2 / WPA3 AP restriction policy */
} wl_wsec_info_wpa_ap_restrict_t;

/*
 * randmac definitions
 */
#define WL_RANDMAC_MODULE "randmac"
#define WL_RANDMAC_API_VERSION 0x0100     /**< version 1.0 */
#define WL_RANDMAC_API_MIN_VERSION 0x0100 /**< version 1.0 */

/** subcommands that can apply to randmac */
enum {
    WL_RANDMAC_SUBCMD_NONE = 0,
    WL_RANDMAC_SUBCMD_GET_VERSION = 1,
    WL_RANDMAC_SUBCMD_ENABLE = 2,
    WL_RANDMAC_SUBCMD_DISABLE = 3,
    WL_RANDMAC_SUBCMD_CONFIG = 4,
    WL_RANDMAC_SUBCMD_STATS = 5,
    WL_RANDMAC_SUBCMD_CLEAR_STATS = 6,

    WL_RANDMAC_SUBCMD_MAX
};
typedef int16 wl_randmac_subcmd_t;

/* Common IOVAR struct */
typedef struct wl_randmac {
    uint16 version;
    uint16 len;                    /* total length */
    wl_randmac_subcmd_t subcmd_id; /* subcommand id */
    uint8 data[0];                 /* subcommand data */
} wl_randmac_t;

#define WL_RANDMAC_IOV_HDR_SIZE OFFSETOF(wl_randmac_t, data)

/* randmac version subcommand */
typedef struct wl_randmac_version {
    uint16 version; /* Randmac method version info */
    uint8 pad[2];   /* Align on 4 byte boundary */
} wl_randmac_version_t;

/*
 * Bitmask for methods supporting MAC randomization feature
 */
#define WL_RANDMAC_USER_NONE 0x0000
#define WL_RANDMAC_USER_FTM 0x0001
#define WL_RANDMAC_USER_NAN 0x0002
#define WL_RANDMAC_USER_SCAN 0x0004
#define WL_RANDMAC_USER_ANQP 0x0008
#define WL_RANDMAC_USER_ALL 0xFFFF
typedef uint16 wl_randmac_method_t;

enum {
    WL_RANDMAC_FLAGS_NONE = 0x00,
    WL_RANDMAC_FLAGS_ADDR = 0x01,
    WL_RANDMAC_FLAGS_MASK = 0x02,
    WL_RANDMAC_FLAGS_METHOD = 0x04,
    WL_RANDMAC_FLAGS_ALL = 0xFF
};
typedef uint8 wl_randmac_flags_t;

/* randmac statistics subcommand */
typedef struct wl_randmac_stats {
    uint32 set_ok;       /* Set random addr success count */
    uint32 set_fail;     /* Set random addr failed count */
    uint32 set_reqs;     /* Set random addr count */
    uint32 reset_reqs;   /* Restore random addr count */
    uint32 restore_ok;   /* Restore random addr succes count */
    uint32 restore_fail; /* Restore random addr failed count */
    uint32 events_sent;  /* randmac module events count */
    uint32 events_rcvd;  /* randmac events received count */
} wl_randmac_stats_t;

/* randmac config subcommand */
typedef struct wl_randmac_config {
    struct ether_addr addr;      /* Randomized MAC address */
    struct ether_addr addr_mask; /* bitmask for randomization */
    wl_randmac_method_t method;  /* Enabled methods */
    wl_randmac_flags_t flags;    /* What config info changed */
    uint8 PAD;
} wl_randmac_config_t;

enum {
    WL_RANDMAC_EVENT_NONE = 0,                /**< not an event, reserved */
    WL_RANDMAC_EVENT_BSSCFG_ADDR_SET = 1,     /* bsscfg addr randomized */
    WL_RANDMAC_EVENT_BSSCFG_ADDR_RESTORE = 2, /* bsscfg addr restored */
    WL_RANDMAC_EVENT_ENABLED = 3,             /* randmac module enabled */
    WL_RANDMAC_EVENT_DISABLE = 4,             /* randmac module disabled */
    WL_RANDMAC_EVENT_BSSCFG_STATUS = 5,       /* bsscfg enable/disable */

    WL_RANDMAC_EVENT_MAX
};
typedef int16 wl_randmac_event_type_t;
typedef int32 wl_randmac_status_t;
typedef uint32 wl_randmac_event_mask_t;

#define WL_RANDMAC_EVENT_MASK_ALL 0xfffffffe
#define WL_RANDMAC_EVENT_MASK_EVENT(_event_type) (1 << (_event_type))
#define WL_RANDMAC_EVENT_ENABLED(_mask, _event_type)                           \
    (((_mask)&WL_RANDMAC_EVENT_MASK_EVENT(_event_type)) != 0)

/** tlv IDs - data length 4 bytes unless overridden by type, alignment 32 bits
 */
enum {
    WL_RANDMAC_TLV_NONE = 0,
    WL_RANDMAC_TLV_METHOD = 1,
    WL_RANDMAC_TLV_ADDR = 2,
    WL_RANDMAC_TLV_MASK = 3
};
typedef uint16 wl_randmac_tlv_id_t;

typedef struct wl_randmac_tlv {
    wl_randmac_tlv_id_t id;
    uint16 len; /* Length of variable */
    uint8 data[1];
} wl_randmac_tlv_t;

/** randmac event */
typedef struct wl_randmac_event {
    uint16 version;
    uint16 len; /* Length of all variables */
    wl_randmac_event_type_t type;
    wl_randmac_method_t method;
    uint8 pad[2];
    wl_randmac_tlv_t tlvs[1]; /**< variable */
} wl_randmac_event_t;

/*
 * scan MAC definitions
 */

/** common iovar struct */
typedef struct wl_scanmac {
    uint16 subcmd_id; /**< subcommand id */
    uint16 len;       /**< total length of data[] */
    uint8 data[];     /**< subcommand data */
} wl_scanmac_t;

/* subcommand ids */
#define WL_SCANMAC_SUBCMD_ENABLE 0
#define WL_SCANMAC_SUBCMD_BSSCFG 1 /**< only GET supported */
#define WL_SCANMAC_SUBCMD_CONFIG 2

/** scanmac enable data struct */
typedef struct wl_scanmac_enable {
    uint8 enable; /**< 1 - enable, 0 - disable */
    uint8 pad[3]; /**< 4-byte struct alignment */
} wl_scanmac_enable_t;

/** scanmac bsscfg data struct */
typedef struct wl_scanmac_bsscfg {
    uint32 bsscfg; /**< bsscfg index */
} wl_scanmac_bsscfg_t;

/** scanmac config data struct */
typedef struct wl_scanmac_config {
    struct ether_addr
        mac; /**< 6 bytes of MAC address or MAC prefix (i.e. OUI) */
    struct ether_addr random_mask; /**< randomized bits on each scan */
    uint16 scan_bitmap;            /**< scans to use this MAC address */
    uint8 pad[2];                  /**< 4-byte struct alignment */
} wl_scanmac_config_t;

/* scan bitmap */
#define WL_SCANMAC_SCAN_UNASSOC (0x01 << 0)    /**< unassociated scans */
#define WL_SCANMAC_SCAN_ASSOC_ROAM (0x01 << 1) /**< associated roam scans */
#define WL_SCANMAC_SCAN_ASSOC_PNO (0x01 << 2)  /**< associated PNO scans */
#define WL_SCANMAC_SCAN_ASSOC_HOST (0x01 << 3) /**< associated host scans */

#define WL_SCAN_EVENT_VERSION 1

#define WL_SCAN_TYPE_ASSOC 0x1    /* Assoc scan     */
#define WL_SCAN_TYPE_ROAM 0x2     /* Roam scan     */
#define WL_SCAN_TYPE_FWSCAN 0x4   /* Other FW scan     */
#define WL_SCAN_TYPE_HOSTSCAN 0x8 /* Host scan     */

typedef struct scan_event_data {
    uint32 version;
    uint32 flags;
    uint16 num_chan_slice0;
    uint16 num_chan_slice1;
    /* Will contain num_chan_slice0 followed by num_chan_slice1 chanspecs */
    chanspec_t scan_chan_list[];
} scan_event_data_t;

/*
 * bonjour dongle offload definitions
 */

/* common iovar struct */
typedef struct wl_bdo {
    uint16 subcmd_id; /* subcommand id */
    uint16 len;       /* total length of data[] */
    uint8 data[];     /* subcommand data */
} wl_bdo_t;

/* subcommand ids */
#define WL_BDO_SUBCMD_DOWNLOAD 0     /* Download flattened database  */
#define WL_BDO_SUBCMD_ENABLE 1       /* Start bonjour after download */
#define WL_BDO_SUBCMD_MAX_DOWNLOAD 2 /* Get the max download size    */

/* maximum fragment size */
#define BDO_MAX_FRAGMENT_SIZE 1024

/* download flattened database
 *
 * BDO must be disabled before database download else fail.
 *
 * If database size is within BDO_MAX_FRAGMENT_SIZE then only a single fragment
 * is required (i.e. frag_num = 0, total_size = frag_size).
 * If database size exceeds BDO_MAX_FRAGMENT_SIZE then multiple fragments are
 * required.
 */
typedef struct wl_bdo_download {
    uint16 total_size; /* total database size */
    uint16 frag_num;   /* fragment number, 0 for first fragment, N-1 for last
                          fragment */
    uint16 frag_size;  /* size of fragment (max BDO_MAX_FRAGMENT_SIZE) */
    uint8 pad[2];      /* 4-byte struct alignment */
    uint8 fragment[BDO_MAX_FRAGMENT_SIZE]; /* fragment data */
} wl_bdo_download_t;

/* enable
 *
 * Enable requires a downloaded database else fail.
 */
typedef struct wl_bdo_enable {
    uint8 enable; /* 1 - enable, 0 - disable */
    uint8 pad[3]; /* 4-byte struct alignment */
} wl_bdo_enable_t;

/*
 * Get the max download size for Bonjour Offload.
 */
typedef struct wl_bdo_max_download {
    uint16 size;  /* Max download size in bytes */
    uint8 pad[2]; /* 4-byte struct alignment    */
} wl_bdo_max_download_t;

/*
 * TCP keepalive offload definitions
 */

/* common iovar struct */
typedef struct wl_tko {
    uint16 subcmd_id; /* subcommand id */
    uint16 len;       /* total length of data[] */
    uint8 data[];     /* subcommand data */
} wl_tko_t;

/* subcommand ids */
#define WL_TKO_SUBCMD_MAX_TCP 0 /* max TCP connections supported */
#define WL_TKO_SUBCMD_PARAM 1   /* configure offload common parameters  */
#define WL_TKO_SUBCMD_CONNECT 2 /* TCP connection info */
#define WL_TKO_SUBCMD_ENABLE 3  /* enable/disable */
#define WL_TKO_SUBCMD_STATUS 4  /* TCP connection status */

/* WL_TKO_SUBCMD_MAX_CONNECT subcommand data */
typedef struct wl_tko_max_tcp {
    uint8 max;    /* max TCP connections supported */
    uint8 pad[3]; /* 4-byte struct alignment */
} wl_tko_max_tcp_t;

/* WL_TKO_SUBCMD_PARAM subcommand data */
typedef struct wl_tko_param {
    uint16 interval;       /* keepalive tx interval (secs) */
    uint16 retry_interval; /* keepalive retry interval (secs) */
    uint16 retry_count;    /* retry_count */
    uint8 pad[2];          /* 4-byte struct alignment */
} wl_tko_param_t;

/* WL_TKO_SUBCMD_CONNECT subcommand data
 * invoke with unique 'index' for each TCP connection
 */
typedef struct wl_tko_connect {
    uint8 index;        /* TCP connection index, 0 to max-1 */
    uint8 ip_addr_type; /* 0 - IPv4, 1 - IPv6 */
    uint16 local_port;  /* local port */
    uint16 remote_port; /* remote port */
    uint16 PAD;
    uint32 local_seq;    /* local sequence number */
    uint32 remote_seq;   /* remote sequence number */
    uint16 request_len;  /* TCP keepalive request packet length */
    uint16 response_len; /* TCP keepalive response packet length */
    uint8 data[]; /* variable length field containing local/remote IPv4/IPv6,
                   * TCP keepalive request packet, TCP keepalive response packet
                   *    For IPv4, length is 4 * 2 + request_length +
                   * response_length offset 0 - local IPv4 offset 4 - remote
                   * IPv4 offset 8 - TCP keepalive request packet offset
                   * 8+request_length - TCP keepalive response packet For IPv6,
                   * length is 16 * 2 + request_length + response_length offset
                   * 0 - local IPv6 offset 16 - remote IPv6 offset 32 - TCP
                   * keepalive request packet offset 32+request_length - TCP
                   * keepalive response packet
                   */
} wl_tko_connect_t;

/* WL_TKO_SUBCMD_CONNECT subcommand data to GET configured info for specific
 * index */
typedef struct wl_tko_get_connect {
    uint8 index;  /* TCP connection index, 0 to max-1 */
    uint8 pad[3]; /* 4-byte struct alignment */
} wl_tko_get_connect_t;

typedef struct wl_tko_enable {
    uint8 enable; /* 1 - enable, 0 - disable */
    uint8 pad[3]; /* 4-byte struct alignment */
} wl_tko_enable_t;

/* WL_TKO_SUBCMD_STATUS subcommand data */
/* must be invoked before tko is disabled else status is unavailable */
typedef struct wl_tko_status {
    uint8 count;     /* number of status entries (i.e. equals
                      * max TCP connections supported)
                      */
    uint8 status[1]; /* variable length field contain status for
                      * each TCP connection index
                      */
} wl_tko_status_t;

typedef enum {
    TKO_STATUS_NORMAL = 0,          /* TCP connection normal, no error */
    TKO_STATUS_NO_RESPONSE = 1,     /* no response to TCP keepalive */
    TKO_STATUS_NO_TCP_ACK_FLAG = 2, /* TCP ACK flag not set */
    TKO_STATUS_UNEXPECT_TCP_FLAG =
        3,                          /* unexpect TCP flags set other than ACK */
    TKO_STATUS_SEQ_NUM_INVALID = 4, /* ACK != sequence number */
    TKO_STATUS_REMOTE_SEQ_NUM_INVALID = 5, /* SEQ > remote sequence number */
    TKO_STATUS_TCP_DATA = 6,               /* TCP data available */
    TKO_STATUS_UNAVAILABLE = 255,          /* not used/configured */
} tko_status_t;

enum rssi_reason {
    RSSI_REASON_UNKNOW = 0,
    RSSI_REASON_LOWRSSI = 1,
    RSSI_REASON_NSYC = 2,
    RSSI_REASON_TIMEOUT = 3
};

enum tof_reason {
    TOF_REASON_OK = 0,
    TOF_REASON_REQEND = 1,
    TOF_REASON_TIMEOUT = 2,
    TOF_REASON_NOACK = 3,
    TOF_REASON_INVALIDAVB = 4,
    TOF_REASON_INITIAL = 5,
    TOF_REASON_ABORT = 6
};

enum rssi_state {
    RSSI_STATE_POLL = 0,
    RSSI_STATE_TPAIRING = 1,
    RSSI_STATE_IPAIRING = 2,
    RSSI_STATE_THANDSHAKE = 3,
    RSSI_STATE_IHANDSHAKE = 4,
    RSSI_STATE_CONFIRMED = 5,
    RSSI_STATE_PIPELINE = 6,
    RSSI_STATE_NEGMODE = 7,
    RSSI_STATE_MONITOR = 8,
    RSSI_STATE_LAST = 9
};

enum tof_state {
    TOF_STATE_IDLE = 0,
    TOF_STATE_IWAITM = 1,
    TOF_STATE_TWAITM = 2,
    TOF_STATE_ILEGACY = 3,
    TOF_STATE_IWAITCL = 4,
    TOF_STATE_TWAITCL = 5,
    TOF_STATE_ICONFIRM = 6,
    TOF_STATE_IREPORT = 7
};

enum tof_mode_type {
    TOF_LEGACY_UNKNOWN = 0,
    TOF_LEGACY_AP = 1,
    TOF_NONLEGACY_AP = 2
};

enum tof_way_type {
    TOF_TYPE_ONE_WAY = 0,
    TOF_TYPE_TWO_WAY = 1,
    TOF_TYPE_REPORT = 2
};

enum tof_rate_type { TOF_FRAME_RATE_VHT = 0, TOF_FRAME_RATE_LEGACY = 1 };

#define TOF_ADJ_TYPE_NUM 4 /**< number of assisted timestamp adjustment */
enum tof_adj_mode {
    TOF_ADJ_SOFTWARE = 0,
    TOF_ADJ_HARDWARE = 1,
    TOF_ADJ_SEQ = 2,
    TOF_ADJ_NONE = 3
};

#define FRAME_TYPE_NUM 4 /**< number of frame type */
enum frame_type {
    FRAME_TYPE_CCK = 0,
    FRAME_TYPE_OFDM = 1,
    FRAME_TYPE_11N = 2,
    FRAME_TYPE_11AC = 3
};

typedef struct wl_proxd_status_iovar {
    uint16 method;  /**< method */
    uint8 mode;     /**< mode */
    uint8 peermode; /**< peer mode */
    uint8 state;    /**< state */
    uint8 reason;   /**< reason code */
    uint8 PAD[2];
    uint32 distance;        /**< distance */
    uint32 txcnt;           /**< tx pkt counter */
    uint32 rxcnt;           /**< rx pkt counter */
    struct ether_addr peer; /**< peer mac address */
    int8 avg_rssi;          /**< average rssi */
    int8 hi_rssi;           /**< highest rssi */
    int8 low_rssi;          /**< lowest rssi */
    uint8 PAD[3];
    uint32 dbgstatus;                      /**< debug status */
    uint16 frame_type_cnt[FRAME_TYPE_NUM]; /**< frame types */
    uint8 adj_type_cnt[TOF_ADJ_TYPE_NUM];  /**< adj types HW/SW */
} wl_proxd_status_iovar_t;

/* ifdef NET_DETECT */
typedef struct net_detect_adapter_features {
    uint8 wowl_enabled;
    uint8 net_detect_enabled;
    uint8 nlo_enabled;
} net_detect_adapter_features_t;

typedef enum net_detect_bss_type {
    nd_bss_any = 0,
    nd_ibss,
    nd_ess
} net_detect_bss_type_t;

typedef struct net_detect_profile {
    wlc_ssid_t ssid;
    net_detect_bss_type_t
        bss_type;       /**< Ignore for now since Phase 1 is only for ESS */
    uint32 cipher_type; /**< DOT11_CIPHER_ALGORITHM enumeration values */
    uint32 auth_type;   /**< DOT11_AUTH_ALGORITHM enumeration values */
} net_detect_profile_t;

typedef struct net_detect_profile_list {
    uint32 num_nd_profiles;
    net_detect_profile_t nd_profile[];
} net_detect_profile_list_t;

typedef struct net_detect_config {
    uint8 nd_enabled;
    uint8 PAD[3];
    uint32 scan_interval;
    uint32 wait_period;
    uint8 wake_if_connected;
    uint8 wake_if_disconnected;
    uint8 PAD[2];
    net_detect_profile_list_t nd_profile_list;
} net_detect_config_t;

typedef enum net_detect_wake_reason {
    nd_reason_unknown,
    nd_net_detected,
    nd_wowl_event,
    nd_ucode_error
} net_detect_wake_reason_t;

typedef struct net_detect_wake_data {
    net_detect_wake_reason_t nd_wake_reason;
    uint32 nd_wake_date_length;
    uint8 nd_wake_data[0]; /**< Wake data (currently unused) */
} net_detect_wake_data_t;

/* endif NET_DETECT */

/* (unversioned, deprecated) */
typedef struct bcnreq {
    uint8 bcn_mode;
    uint8 PAD[3];
    int32 dur;
    int32 channel;
    struct ether_addr da;
    uint16 random_int;
    wlc_ssid_t ssid;
    uint16 reps;
    uint8 PAD[2];
} bcnreq_t;

#define WL_RRM_BCN_REQ_VER 1
typedef struct bcn_req {
    uint8 version;
    uint8 bcn_mode;
    uint8 pad_1[2];
    int32 dur;
    int32 channel;
    struct ether_addr da;
    uint16 random_int;
    wlc_ssid_t ssid;
    uint16 reps;
    uint8 req_elements;
    uint8 pad_2;
    chanspec_list_t chspec_list;
} bcn_req_t;

typedef struct rrmreq {
    struct ether_addr da;
    uint8 reg;
    uint8 chan;
    uint16 random_int;
    uint16 dur;
    uint16 reps;
} rrmreq_t;

typedef struct framereq {
    struct ether_addr da;
    uint8 reg;
    uint8 chan;
    uint16 random_int;
    uint16 dur;
    struct ether_addr ta;
    uint16 reps;
} framereq_t;

typedef struct statreq {
    struct ether_addr da;
    struct ether_addr peer;
    uint16 random_int;
    uint16 dur;
    uint8 group_id;
    uint8 PAD;
    uint16 reps;
} statreq_t;

typedef struct txstrmreq {
    struct ether_addr da;   /* Destination address */
    uint16 random_int;      /* Random interval for measurement start */
    uint16 dur;             /* Measurement duration */
    uint16 reps;            /* number of repetitions */
    struct ether_addr peer; /* Peer MAC address */
    uint8 tid;              /* Traffic ID */
    uint8 bin0_range;       /* Delay range of the first bin */
} txstrmreq_t;

typedef struct lcireq {
    struct ether_addr da; /* Destination address */
    uint16 reps;          /* number of repetitions */
    uint8 subj;           /* Local/Remote/Thid party */
    uint8 lat_res;        /* Latitude requested Resolution */
    uint8 lon_res;        /* Longitude requested Resolution */
    uint8 alt_res;        /* Altitude requested Resolution */
} lcireq_t;

typedef struct civicreq {
    struct ether_addr da; /* Destination address */
    uint16 reps;          /* number of repetitions */
    uint8 subj;           /* Local/Remote/Thid party */
    uint8 civloc_type;    /* Format of location info */
    uint8 siu;            /* Unit of Location service interval */
    uint8 pad;
    uint16 si; /* Location service interval */
} civicreq_t;

typedef struct locidreq {
    struct ether_addr da; /* Destination address */
    uint16 reps;          /* number of repetitions */
    uint8 subj;           /* Local/Remote/Thid party */
    uint8 siu;            /* Unit of Location service interval */
    uint16 si;            /* Location service interval */
} locidreq_t;

typedef struct wl_rrm_config_ioc {
    uint16 version; /* command version */
    uint16 id;      /* subiovar cmd ID */
    uint16 len;     /* total length of all bytes in data[] */
    uint16 pad;     /* 4-byte boundary padding */
    uint8 data[1];  /* payload */
} wl_rrm_config_ioc_t;

enum {
    WL_RRM_CONFIG_NONE = 0,      /* reserved */
    WL_RRM_CONFIG_GET_LCI = 1,   /* get LCI */
    WL_RRM_CONFIG_SET_LCI = 2,   /* set LCI */
    WL_RRM_CONFIG_GET_CIVIC = 3, /* get civic location */
    WL_RRM_CONFIG_SET_CIVIC = 4, /* set civic location */
    WL_RRM_CONFIG_GET_LOCID = 5, /* get location identifier */
    WL_RRM_CONFIG_SET_LOCID = 6, /* set location identifier */
    WL_RRM_CONFIG_MAX = 7
};

#define WL_RRM_CONFIG_NAME "rrm_config"
#define WL_RRM_CONFIG_MIN_LENGTH OFFSETOF(wl_rrm_config_ioc_t, data)

enum {
    WL_RRM_EVENT_NONE = 0,     /* not an event, reserved */
    WL_RRM_EVENT_FRNG_REQ = 1, /* Receipt of FRNG request frame */
    WL_RRM_EVENT_FRNG_REP = 2, /* Receipt of FRNG report frame */

    WL_RRM_EVENT_MAX
};
typedef int16 wl_rrm_event_type_t;

typedef struct frngreq_target {
    uint32 bssid_info;
    uint8 channel;
    uint8 phytype;
    uint8 reg;
    uint8 pad;
    struct ether_addr bssid;
    chanspec_t chanspec;
    uint32 sid;
} frngreq_target_t;

typedef struct frngreq {
    wl_rrm_event_type_t event; /* RRM event type */
    struct ether_addr da;
    uint16 max_init_delay; /* Upper bound of random delay, in TUs */
    uint8 min_ap_count;    /* Min FTM ranges requested (1-15) */
    uint8 num_aps;         /* Number of APs to range, at least min_ap_count */
    uint16 max_age; /* Max elapsed time before FTM request, 0xFFFF = any */
    uint16 reps;    /* Number of repetitions of this measurement type */
    frngreq_target_t targets[1]; /* Target BSSIDs to range */
} frngreq_t;

typedef struct frngrep_range {
    uint32 start_tsf; /* 4 lsb of tsf */
    struct ether_addr bssid;
    uint8 pad[2];
    uint32 range;
    uint32 max_err;
    uint8 rsvd;
    uint8 pad2[3];
} frngrep_range_t;

typedef struct frngrep_error {
    uint32 start_tsf; /* 4 lsb of tsf */
    struct ether_addr bssid;
    uint8 code;
    uint8 pad[1];
} frngrep_error_t;

typedef struct frngrep {
    wl_rrm_event_type_t event; /* RRM event type */
    struct ether_addr da;
    uint8 range_entry_count;
    uint8 error_entry_count;
    uint16 dialog_token; /* dialog token */
    frngrep_range_t range_entries[DOT11_FTM_RANGE_ENTRY_MAX_COUNT];
    frngrep_error_t error_entries[DOT11_FTM_RANGE_ERROR_ENTRY_MAX_COUNT];
} frngrep_t;

typedef struct wl_rrm_frng_ioc {
    uint16 version; /* command version */
    uint16 id;      /* subiovar cmd ID */
    uint16 len;     /* total length of all bytes in data[] */
    uint16 pad;     /* 4-byte boundary padding */
    uint8 data[];   /* payload */
} wl_rrm_frng_ioc_t;

enum {
    WL_RRM_FRNG_NONE = 0,    /* reserved */
    WL_RRM_FRNG_SET_REQ = 1, /* send ftm ranging request */
    WL_RRM_FRNG_MAX = 2
};

#define WL_RRM_FRNG_NAME "rrm_frng"
#define WL_RRM_FRNG_MIN_LENGTH OFFSETOF(wl_rrm_frng_ioc_t, data)

#define WL_RRM_RPT_VER 0
#define WL_RRM_RPT_MAX_PAYLOAD 256
#define WL_RRM_RPT_MIN_PAYLOAD 7
#define WL_RRM_RPT_FALG_ERR 0
#define WL_RRM_RPT_FALG_GRP_ID_PROPR (1 << 0)
#define WL_RRM_RPT_FALG_GRP_ID_0 (1 << 1)
typedef struct {
    uint16 ver;             /**< version */
    struct ether_addr addr; /**< STA MAC addr */
    uint32 timestamp;       /**< timestamp of the report */
    uint16 flag;            /**< flag */
    uint16 len;             /**< length of payload data */
    uint8 data[WL_RRM_RPT_MAX_PAYLOAD];
} statrpt_t;

typedef struct wlc_dwds_config {
    uint32 enable;
    uint32 mode; /**< STA/AP interface */
    struct ether_addr ea;
    uint8 PAD[2];
} wlc_dwds_config_t;

typedef struct wl_el_set_params_s {
    uint8 set; /**< Set number */
    uint8 PAD[3];
    uint32 size; /**< Size to make/expand */
} wl_el_set_params_t;

typedef struct wl_el_tag_params_s {
    uint16 tag;
    uint8 set;
    uint8 flags;
} wl_el_tag_params_t;

#define EVENT_LOG_SET_TYPE_CURRENT_VERSION 0
typedef struct wl_el_set_type_s {
    uint16 version;
    uint16 len;
    uint8 set; /* Set number */
    uint8
        type; /* Type- EVENT_LOG_SET_TYPE_DEFAULT or EVENT_LOG_SET_TYPE_PRSRV */
    uint16 PAD;
} wl_el_set_type_t;

typedef struct wl_staprio_cfg {
    struct ether_addr ea; /**< mac addr */
    uint8 prio;           /**< scb priority */
} wl_staprio_cfg_t;

#define STAMON_STACONFIG_VER 1
/* size of struct wlc_stamon_sta_config_t elements */
#define STAMON_STACONFIG_LENGTH 20

typedef enum wl_stamon_cfg_cmd_type {
    STAMON_CFG_CMD_DEL = 0,
    STAMON_CFG_CMD_ADD = 1,
    STAMON_CFG_CMD_ENB = 2,
    STAMON_CFG_CMD_DSB = 3,
    STAMON_CFG_CMD_CNT = 4,
    STAMON_CFG_CMD_RSTCNT = 5,
    STAMON_CFG_CMD_GET_STATS = 6,
    STAMON_CFG_CMD_SET_MONTIME = 7
} wl_stamon_cfg_cmd_type_t;

typedef struct wlc_stamon_sta_config {
    wl_stamon_cfg_cmd_type_t cmd; /**< 0 - delete, 1 - add */
    struct ether_addr ea;
    uint16 version; /* Command structure version */
    uint16 length;  /* Command structure length */
    uint8 pad[2];
    /* Time (ms) for which STA's are monitored. Value ZERO indicates no time
     * limit */
    uint32 monitor_time;
} wlc_stamon_sta_config_t;

/* ifdef SR_DEBUG */
typedef struct { /* pmu_reg */
    uint32 pmu_control;
    uint32 pmu_capabilities;
    uint32 pmu_status;
    uint32 res_state;
    uint32 res_pending;
    uint32 pmu_timer1;
    uint32 min_res_mask;
    uint32 max_res_mask;
    uint32 pmu_chipcontrol1[4];
    uint32 pmu_regcontrol[5];
    uint32 pmu_pllcontrol[5];
    uint32 pmu_rsrc_up_down_timer[31];
    uint32 rsrc_dep_mask[31];
} pmu_reg_t;
/* endif SR_DEBUG */

typedef struct wl_taf_define {
    struct ether_addr ea; /**< STA MAC or 0xFF... */
    uint16 version;       /**< version */
    uint32 sch;           /**< method index */
    uint32 prio;          /**< priority */
    uint32 misc;          /**< used for return value */
    uint8 text[];         /**< used to pass and return ascii text */
} wl_taf_define_t;

/** Received Beacons lengths information */
#define WL_LAST_BCNS_INFO_FIXED_LEN OFFSETOF(wlc_bcn_len_hist_t, bcnlen_ring)
typedef struct wlc_bcn_len_hist {
    uint16 ver;            /**< version field */
    uint16 cur_index;      /**< current pointed index in ring buffer */
    uint32 max_bcnlen;     /**< Max beacon length received */
    uint32 min_bcnlen;     /**< Min beacon length received */
    uint32 ringbuff_len;   /**< Length of the ring buffer 'bcnlen_ring' */
    uint32 bcnlen_ring[1]; /**< ring buffer storing received beacon lengths */
} wlc_bcn_len_hist_t;

/* WDS net interface types */
#define WL_WDSIFTYPE_NONE                                                      \
    0x0                      /**< The interface type is neither WDS nor DWDS. */
#define WL_WDSIFTYPE_WDS 0x1 /**< The interface is WDS type. */
#define WL_WDSIFTYPE_DWDS 0x2 /**< The interface is DWDS type. */

typedef struct wl_bssload_static {
    uint8 is_static;
    uint8 PAD;
    uint16 sta_count;
    uint8 chan_util;
    uint8 PAD;
    uint16 aac;
} wl_bssload_static_t;

/* Buffer of size WLC_SAMPLECOLLECT_MAXLEN (=10240 for 4345a0 ACPHY)
 * gets copied to this, multiple times
 */
typedef enum wl_gpaio_option {
    GPAIO_PMU_AFELDO,
    GPAIO_PMU_TXLDO,
    GPAIO_PMU_VCOLDO,
    GPAIO_PMU_LNALDO,
    GPAIO_PMU_ADCLDO,
    GPAIO_ICTAT_CAL,
    GPAIO_PMU_CLEAR,
    GPAIO_OFF,
    GPAIO_PMU_LOGENLDO,
    GPAIO_PMU_RXLDO2G,
    GPAIO_PMU_RXLDO5G,
    GPAIO_PMU_LPFTXLDO,
    GPAIO_PMU_LDO1P6,
    GPAIO_RCAL,
    GPAIO_IQDAC_BUF_DC_MEAS,
    GPAIO_IQDAC_BUF_DC_CLEAR,
    GPAIO_DAC_IQ_DC_RDBK,
    GPAIO_DAC_IQ_DC_RDBK_CLEAR,
    GPAIO_AFE_LDO_FOR_DAC_DC,
    GPAIO_PA5G_VCAS_SOURCE,
    GPAIO_BIQ2_DC_MEAS,
    GPAIO_BIQ2_DC_CLEAR,
    GPAIO_VBATMONITOR,
    GPAIO_PA5G_VCAS_GMDRAIN
} wl_gpaio_option_t;

/** IO Var Operations - the Value of iov_op In wlc_ap_doiovar */
typedef enum wlc_ap_iov_bss_operation {
    WLC_AP_IOV_OP_DELETE = -1,
    WLC_AP_IOV_OP_DISABLE = 0,
    WLC_AP_IOV_OP_ENABLE = 1,
    WLC_AP_IOV_OP_MANUAL_AP_BSSCFG_CREATE = 2,
    WLC_AP_IOV_OP_MANUAL_STA_BSSCFG_CREATE = 3,
    WLC_AP_IOV_OP_MOVE = 4
} wlc_ap_iov_bss_oper_t;

/* LTE coex info */
/* Analogue of HCI Set MWS Signaling cmd */
typedef struct {
    int16 mws_rx_assert_offset;
    int16 mws_rx_assert_jitter;
    int16 mws_rx_deassert_offset;
    int16 mws_rx_deassert_jitter;
    int16 mws_tx_assert_offset;
    int16 mws_tx_assert_jitter;
    int16 mws_tx_deassert_offset;
    int16 mws_tx_deassert_jitter;
    int16 mws_pattern_assert_offset;
    int16 mws_pattern_assert_jitter;
    int16 mws_inact_dur_assert_offset;
    int16 mws_inact_dur_assert_jitter;
    int16 mws_scan_freq_assert_offset;
    int16 mws_scan_freq_assert_jitter;
    int16 mws_prio_assert_offset_req;
} wci2_config_t;

/** Analogue of HCI MWS Channel Params */
typedef struct {
    uint16 mws_rx_center_freq; /**< MHz */
    uint16 mws_tx_center_freq;
    uint16 mws_rx_channel_bw; /**< KHz */
    uint16 mws_tx_channel_bw;
    uint8 mws_channel_en;
    uint8 mws_channel_type; /**< Don't care for WLAN? */
} mws_params_t;

#define LTECX_MAX_NUM_PERIOD_TYPES 7

/* LTE Frame params */
typedef struct {
    uint16 mws_frame_dur;
    int16 mws_framesync_assert_offset;
    uint16 mws_framesync_assert_jitter;
    uint16 mws_period_dur[LTECX_MAX_NUM_PERIOD_TYPES];
    uint8 mws_period_type[LTECX_MAX_NUM_PERIOD_TYPES];
    uint8 mws_num_periods;
} mws_frame_config_t;

/** MWS wci2 message */
typedef struct {
    uint8 mws_wci2_data; /**< BT-SIG msg */
    uint8 PAD;
    uint16 mws_wci2_interval; /**< Interval in us */
    uint16 mws_wci2_repeat;   /**< No of msgs to send */
} mws_wci2_msg_t;
/* MWS ANT map */
typedef struct {
    uint16 combo1; /* mws ant selection 1 */
    uint16 combo2; /* mws ant selection 2 */
    uint16 combo3; /* mws ant selection 3 */
    uint16 combo4; /* mws ant selection 4 */
} mws_ant_map_t;

/* MWS ANT map 2nd generation */
typedef struct {
    uint16 combo[16]; /* mws ant selection 2nd */
} mws_ant_map_t_2nd;

/* MWS SCAN_REQ Bitmap */
typedef struct mws_scanreq_params {
    uint16 idx;
    uint16 bm_2g;
    uint16 bm_5g_lo;
    uint16 bm_5g_mid;
    uint16 bm_5g_hi;
} mws_scanreq_params_t;

typedef struct {
    uint32 config; /**< MODE: AUTO (-1), Disable (0), Enable (1) */
    uint32 status; /**< Current state: Disabled (0), Enabled (1) */
} wl_config_t;

#define WLC_RSDB_MODE_AUTO_MASK 0x80
#define WLC_RSDB_EXTRACT_MODE(val)                                             \
    ((int8)((val) & (~(WLC_RSDB_MODE_AUTO_MASK))))

typedef struct {
    uint16 request;  /* type of sensor hub request */
    uint16 enable;   /* enable/disable response for specified request */
    uint16 interval; /* interval between responses to the request */
} shub_req_t;

#define WL_IF_STATS_T_VERSION 1 /**< current version of wl_if_stats structure  \
                                 */

/** per interface counters */
typedef struct wl_if_stats {
    uint16 version; /**< version of the structure */
    uint16 length;  /**< length of the entire structure */
    uint32 PAD;     /**< padding */

    /* transmit stat counters */
    uint64 txframe;  /**< tx data frames */
    uint64 txbyte;   /**< tx data bytes */
    uint64 txerror;  /**< tx data errors (derived: sum of others) */
    uint64 txnobuf;  /**< tx out of buffer errors */
    uint64 txrunt;   /**< tx runt frames */
    uint64 txfail;   /**< tx failed frames */
    uint64 txretry;  /**< tx retry frames */
    uint64 txretrie; /**< tx multiple retry frames */
    uint64 txfrmsnt; /**< tx sent frames */
    uint64 txmulti;  /**< tx mulitcast sent frames */
    uint64 txfrag;   /**< tx fragments sent */

    /* receive stat counters */
    uint64 rxframe;   /**< rx data frames */
    uint64 rxbyte;    /**< rx data bytes */
    uint64 rxerror;   /**< rx data errors (derived: sum of others) */
    uint64 rxnobuf;   /**< rx out of buffer errors */
    uint64 rxrunt;    /**< rx runt frames */
    uint64 rxfragerr; /**< rx fragment errors */
    uint64 rxmulti;   /**< rx multicast frames */

    uint64 txexptime; /* DATA Tx frames suppressed due to timer expiration */
    uint64 txrts;     /* RTS/CTS succeeeded count */
    uint64 txnocts;   /* RTS/CTS faled count */

    uint64 txretrans; /* Number of frame retransmissions */
} wl_if_stats_t;

typedef struct wl_band {
    uint16 bandtype; /**< WL_BAND_2G, WL_BAND_5G */
    uint16 bandunit; /**< bandstate[] index */
    uint16 phytype;  /**< phytype */
    uint16 phyrev;
} wl_band_t;

#define WL_ROAM_STATS_VER_1                                                    \
    (1u) /**< current version of wl_if_stats structure */

/** roam statistics counters */
typedef struct {
    uint16 version; /**< version of the structure */
    uint16 length;  /**< length of the entire structure */
    uint32 initial_assoc_time;
    uint32 prev_roam_time;
    uint32 last_roam_event_type;
    uint32 last_roam_event_status;
    uint32 last_roam_event_reason;
    uint16 roam_success_cnt;
    uint16 roam_fail_cnt;
    uint16 roam_attempt_cnt;
    uint16 max_roam_target_cnt;
    uint16 min_roam_target_cnt;
    uint16 max_cached_ch_cnt;
    uint16 min_cached_ch_cnt;
    uint16 partial_roam_scan_cnt;
    uint16 full_roam_scan_cnt;
    uint16 most_roam_reason;
    uint16 most_roam_reason_cnt;
} wl_roam_stats_v1_t;

#define WL_WLC_VERSION_T_VERSION                                               \
    1 /**< current version of wlc_version structure */

/** wlc interface version */
typedef struct wl_wlc_version {
    uint16 version; /**< version of the structure */
    uint16 length;  /**< length of the entire structure */

    /* epi version numbers */
    uint16 epi_ver_major; /**< epi major version number */
    uint16 epi_ver_minor; /**< epi minor version number */
    uint16 epi_rc_num;    /**< epi RC number */
    uint16 epi_incr_num;  /**< epi increment number */

    /* wlc interface version numbers */
    uint16 wlc_ver_major; /**< wlc interface major version number */
    uint16 wlc_ver_minor; /**< wlc interface minor version number */
} wl_wlc_version_t;

#define WL_SCAN_VERSION_T_VERSION                                              \
    1 /**< current version of scan_version structure */
/** scan interface version */
typedef struct wl_scan_version {
    uint16 version; /**< version of the structure */
    uint16 length;  /**< length of the entire structure */

    /* scan interface version numbers */
    uint16 scan_ver_major; /**< scan interface major version number */
} wl_scan_version_t;

/* Highest version of WLC_API_VERSION supported */
#define WLC_API_VERSION_MAJOR_MAX 8
#define WLC_API_VERSION_MINOR_MAX 0

/* begin proxd definitions */
#include <packed_section_start.h>

#define WL_PROXD_API_VERSION 0x0300 /**< version 3.0 */

/** Minimum supported API version */
#define WL_PROXD_API_MIN_VERSION 0x0300

/** proximity detection methods */
enum {
    WL_PROXD_METHOD_NONE = 0,
    WL_PROXD_METHOD_RSVD1 =
        1, /**< backward compatibility - RSSI, not supported */
    WL_PROXD_METHOD_TOF = 2,
    WL_PROXD_METHOD_RSVD2 = 3, /**< 11v only - if needed */
    WL_PROXD_METHOD_FTM = 4,   /**< IEEE rev mc/2014 */
    WL_PROXD_METHOD_MAX
};
typedef int16 wl_proxd_method_t;

/** global and method configuration flags */
enum {
    WL_PROXD_FLAG_NONE = 0x00000000,
    WL_PROXD_FLAG_RX_ENABLED = 0x00000001, /**< respond to requests, per bss */
    WL_PROXD_FLAG_RX_RANGE_REQ = 0x00000002, /**< 11mc range requests enabled */
    WL_PROXD_FLAG_TX_LCI = 0x00000004,       /**< tx lci, if known */
    WL_PROXD_FLAG_TX_CIVIC = 0x00000008,     /**< tx civic, if known */
    WL_PROXD_FLAG_RX_AUTO_BURST =
        0x00000010, /**< auto respond w/o host action */
    WL_PROXD_FLAG_TX_AUTO_BURST =
        0x00000020, /**< continue tx w/o host action */
    WL_PROXD_FLAG_AVAIL_PUBLISH = 0x00000040, /**< publish availability */
    WL_PROXD_FLAG_AVAIL_SCHEDULE =
        0x00000080,                          /**< schedule using availability */
    WL_PROXD_FLAG_ASAP_CAPABLE = 0x00000100, /* ASAP capable */
    WL_PROXD_FLAG_MBURST_FOLLOWUP = 0x00000200, /* new multi-burst algorithm */
    WL_PROXD_FLAG_SECURE = 0x00000400,          /* per bsscfg option */
    WL_PROXD_FLAG_NO_TSF_SYNC = 0x00000800,     /* disable tsf sync */
    WL_PROXD_FLAG_ALL = 0xffffffff
};
typedef uint32 wl_proxd_flags_t;

#define WL_PROXD_FLAGS_AVAIL                                                   \
    (WL_PROXD_FLAG_AVAIL_PUBLISH | WL_PROXD_FLAG_AVAIL_SCHEDULE)

/** session flags */
enum {
    WL_PROXD_SESSION_FLAG_NONE = 0x00000000, /**< no flags */
    WL_PROXD_SESSION_FLAG_INITIATOR =
        0x00000001,                            /**< local device is initiator */
    WL_PROXD_SESSION_FLAG_TARGET = 0x00000002, /**< local device is target */
    WL_PROXD_SESSION_FLAG_ONE_WAY = 0x00000004, /**< (initiated) 1-way rtt */
    WL_PROXD_SESSION_FLAG_AUTO_BURST =
        0x00000008,                             /**< created w/ rx_auto_burst */
    WL_PROXD_SESSION_FLAG_PERSIST = 0x00000010, /**< good until cancelled */
    WL_PROXD_SESSION_FLAG_RTT_DETAIL = 0x00000020, /**< rtt detail in results */
    WL_PROXD_SESSION_FLAG_SECURE = 0x00000040,     /**< sessionis secure */
    WL_PROXD_SESSION_FLAG_AOA = 0x00000080,        /**< AOA along w/ RTT */
    WL_PROXD_SESSION_FLAG_RX_AUTO_BURST =
        0x00000100, /**< Same as proxd flags above */
    WL_PROXD_SESSION_FLAG_TX_AUTO_BURST =
        0x00000200, /**< Same as proxd flags above */
    WL_PROXD_SESSION_FLAG_NAN_BSS =
        0x00000400,                         /**< Use NAN BSS, if applicable */
    WL_PROXD_SESSION_FLAG_TS1 = 0x00000800, /**< e.g. FTM1 - ASAP-capable */
    WL_PROXD_SESSION_FLAG_RANDMAC = 0x00001000, /**< use random mac */
    WL_PROXD_SESSION_FLAG_REPORT_FAILURE =
        0x00002000, /**< report failure to target */
    WL_PROXD_SESSION_FLAG_INITIATOR_RPT =
        0x00004000, /**< report distance to target */
    WL_PROXD_SESSION_FLAG_NOCHANSWT = 0x00008000,
    WL_PROXD_SESSION_FLAG_NETRUAL = 0x00010000, /**< netrual mode */
    WL_PROXD_SESSION_FLAG_SEQ_EN = 0x00020000,  /**< Toast */
    WL_PROXD_SESSION_FLAG_NO_PARAM_OVRD =
        0x00040000, /**< no param override from target */
    WL_PROXD_SESSION_FLAG_ASAP = 0x00080000,    /**< ASAP session */
    WL_PROXD_SESSION_FLAG_REQ_LCI = 0x00100000, /**< transmit LCI req */
    WL_PROXD_SESSION_FLAG_REQ_CIV = 0x00200000, /**< transmit civic loc req */
    WL_PROXD_SESSION_FLAG_PRE_SCAN =
        0x00400000, /* enable pre-scan for asap=1 */
    WL_PROXD_SESSION_FLAG_AUTO_VHTACK =
        0x00800000, /* use vhtack based on brcm ie */
    WL_PROXD_SESSION_FLAG_VHTACK =
        0x01000000, /* vht ack is in use - output only */
    WL_PROXD_SESSION_FLAG_BDUR_NOPREF =
        0x02000000, /* burst-duration: no preference */
    WL_PROXD_SESSION_FLAG_NUM_FTM_NOPREF =
        0x04000000, /* num of FTM frames: no preference */
    WL_PROXD_SESSION_FLAG_FTM_SEP_NOPREF =
        0x08000000, /* time btw FTM frams: no pref */
    WL_PROXD_SESSION_FLAG_NUM_BURST_NOPREF =
        0x10000000, /* num of bursts: no pref */
    WL_PROXD_SESSION_FLAG_BURST_PERIOD_NOPREF =
        0x20000000, /* burst period: no pref */
    WL_PROXD_SESSION_FLAG_MBURST_FOLLOWUP =
        0x40000000, /* new mburst algo  - reserved */
    WL_PROXD_SESSION_FLAG_MBURST_NODELAY =
        0x80000000, /**< good until cancelled */
    WL_PROXD_SESSION_FLAG_ALL = 0xffffffff
};
typedef uint32 wl_proxd_session_flags_t;

/** time units - mc supports up to 0.1ns resolution */
enum {
    WL_PROXD_TMU_TU = 0, /**< 1024us */
    WL_PROXD_TMU_SEC = 1,
    WL_PROXD_TMU_MILLI_SEC = 2,
    WL_PROXD_TMU_MICRO_SEC = 3,
    WL_PROXD_TMU_NANO_SEC = 4,
    WL_PROXD_TMU_PICO_SEC = 5
};
typedef int16 wl_proxd_tmu_t;

/** time interval e.g. 10ns */
typedef struct wl_proxd_intvl {
    uint32 intvl;
    wl_proxd_tmu_t tmu;
    uint8 pad[2];
} wl_proxd_intvl_t;

/** commands that can apply to proxd, method or a session */
enum {
    WL_PROXD_CMD_NONE = 0,
    WL_PROXD_CMD_GET_VERSION = 1,
    WL_PROXD_CMD_ENABLE = 2,
    WL_PROXD_CMD_DISABLE = 3,
    WL_PROXD_CMD_CONFIG = 4,
    WL_PROXD_CMD_START_SESSION = 5,
    WL_PROXD_CMD_BURST_REQUEST = 6,
    WL_PROXD_CMD_STOP_SESSION = 7,
    WL_PROXD_CMD_DELETE_SESSION = 8,
    WL_PROXD_CMD_GET_RESULT = 9,
    WL_PROXD_CMD_GET_INFO = 10,
    WL_PROXD_CMD_GET_STATUS = 11,
    WL_PROXD_CMD_GET_SESSIONS = 12,
    WL_PROXD_CMD_GET_COUNTERS = 13,
    WL_PROXD_CMD_CLEAR_COUNTERS = 14,
    WL_PROXD_CMD_COLLECT = 15, /* not supported, see 'wl proxd_collect' */
    WL_PROXD_CMD_TUNE = 16,    /* not supported, see 'wl proxd_tune' */
    WL_PROXD_CMD_DUMP = 17,
    WL_PROXD_CMD_START_RANGING = 18,
    WL_PROXD_CMD_STOP_RANGING = 19,
    WL_PROXD_CMD_GET_RANGING_INFO = 20,
    WL_PROXD_CMD_IS_TLV_SUPPORTED = 21,

    WL_PROXD_CMD_MAX
};
typedef int16 wl_proxd_cmd_t;

/* session ids:
 * id 0 is reserved
 * ids 1..0x7fff - allocated by host/app
 * 0x8000-0xffff - allocated by firmware, used for auto/rx
 */
enum { WL_PROXD_SESSION_ID_GLOBAL = 0 };

/* Externally allocated sids */
#define WL_PROXD_SID_EXT_MAX 0x7fff
#define WL_PROXD_SID_EXT_ALLOC(_sid)                                           \
    ((_sid) > 0 && (_sid) <= WL_PROXD_SID_EXT_MAX)

/* block size for reserved sid blocks */
#define WL_PROXD_SID_EXT_BLKSZ 256
#define WL_PROXD_SID_EXT_BLK_START(_i)                                         \
    (WL_PROXD_SID_EXT_MAX - (_i)*WL_PROXD_SID_EXT_BLKSZ + 1)
#define WL_PROXD_SID_EXT_BLK_END(_start) ((_start) + WL_PROXD_SID_EXT_BLKSZ - 1)

/* rrm block */
#define WL_PROXD_SID_RRM_START WL_PROXD_SID_EXT_BLK_START(1)
#define WL_PROXD_SID_RRM_END WL_PROXD_SID_EXT_BLK_END(WL_PROXD_SID_RRM_START)

/* nan block */
#define WL_PROXD_SID_NAN_START WL_PROXD_SID_EXT_BLK_START(2)
#define WL_PROXD_SID_NAN_END WL_PROXD_SID_EXT_BLK_END(WL_PROXD_SID_NAN_START)

/** maximum number sessions that can be allocated, may be less if tunable */
#define WL_PROXD_MAX_SESSIONS 16

typedef uint16 wl_proxd_session_id_t;

/* Use WL_PROXD_E_* errorcodes from this file if BCMUTILS_ERR_CODES not defined
 */
#ifndef BCMUTILS_ERR_CODES

/** status - BCME_ vs proxd status - range reserved for BCME_ */
enum {
    WL_PROXD_E_LAST = -1056,
    WL_PROXD_E_NOAVAIL = -1056,
    WL_PROXD_E_EXT_SCHED = -1055,
    WL_PROXD_E_NOT_BCM = -1054,
    WL_PROXD_E_FRAME_TYPE = -1053,
    WL_PROXD_E_VERNOSUPPORT = -1052,
    WL_PROXD_E_SEC_NOKEY = -1051,
    WL_PROXD_E_SEC_POLICY = -1050,
    WL_PROXD_E_SCAN_INPROCESS = -1049,
    WL_PROXD_E_BAD_PARTIAL_TSF = -1048,
    WL_PROXD_E_SCANFAIL = -1047,
    WL_PROXD_E_NOTSF = -1046,
    WL_PROXD_E_POLICY = -1045,
    WL_PROXD_E_INCOMPLETE = -1044,
    WL_PROXD_E_OVERRIDDEN = -1043,
    WL_PROXD_E_ASAP_FAILED = -1042,
    WL_PROXD_E_NOTSTARTED = -1041,
    WL_PROXD_E_INVALIDMEAS = -1040,
    WL_PROXD_E_INCAPABLE = -1039,
    WL_PROXD_E_MISMATCH = -1038,
    WL_PROXD_E_DUP_SESSION = -1037,
    WL_PROXD_E_REMOTE_FAIL = -1036,
    WL_PROXD_E_REMOTE_INCAPABLE = -1035,
    WL_PROXD_E_SCHED_FAIL = -1034,
    WL_PROXD_E_PROTO = -1033,
    WL_PROXD_E_EXPIRED = -1032,
    WL_PROXD_E_TIMEOUT = -1031,
    WL_PROXD_E_NOACK = -1030,
    WL_PROXD_E_DEFERRED = -1029,
    WL_PROXD_E_INVALID_SID = -1028,
    WL_PROXD_E_REMOTE_CANCEL = -1027,
    WL_PROXD_E_CANCELED = -1026, /**< local */
    WL_PROXD_E_INVALID_SESSION = -1025,
    WL_PROXD_E_BAD_STATE = -1024,
    WL_PROXD_E_START = -1024,
    WL_PROXD_E_ERROR = -1,
    WL_PROXD_E_OK = 0
};
typedef int32 wl_proxd_status_t;

#endif /* BCMUTILS_ERR_CODES */

/* proxd errors from phy */
#define PROXD_TOF_INIT_ERR_BITS 16

enum {
    WL_PROXD_PHY_ERR_LB_CORR_THRESH =
        (1 << 0), /* Loopback Correlation threshold */
    WL_PROXD_PHY_ERR_RX_CORR_THRESH =
        (1 << 1), /* Received Correlation threshold */
    WL_PROXD_PHY_ERR_LB_PEAK_POWER = (1 << 2), /* Loopback Peak power   */
    WL_PROXD_PHY_ERR_RX_PEAK_POWER = (1 << 3), /* Received Peak power   */
    WL_PROXD_PHY_ERR_BITFLIP = (1 << 4),       /* Bitflips */
    WL_PROXD_PHY_ERR_SNR = (1 << 5),           /* SNR */
    WL_PROXD_PHY_RX_STRT_WIN_OFF = (1 << 6),   /* Receive start window is off */
    WL_PROXD_PHY_RX_END_WIN_OFF = (1 << 7),    /* Receive End window is off */
    WL_PROXD_PHY_ERR_LOW_CONFIDENCE =
        (1 << 15), /* Low confidence on meas distance */
};
typedef uint32 wl_proxd_phy_error_t;

/** session states */
enum {
    WL_PROXD_SESSION_STATE_NONE = 0,
    WL_PROXD_SESSION_STATE_CREATED = 1,
    WL_PROXD_SESSION_STATE_CONFIGURED = 2,
    WL_PROXD_SESSION_STATE_STARTED = 3,
    WL_PROXD_SESSION_STATE_DELAY = 4,
    WL_PROXD_SESSION_STATE_USER_WAIT = 5,
    WL_PROXD_SESSION_STATE_SCHED_WAIT = 6,
    WL_PROXD_SESSION_STATE_BURST = 7,
    WL_PROXD_SESSION_STATE_STOPPING = 8,
    WL_PROXD_SESSION_STATE_ENDED = 9,
    WL_PROXD_SESSION_STATE_START_WAIT = 10,
    WL_PROXD_SESSION_STATE_DESTROYING = -1
};
typedef int16 wl_proxd_session_state_t;

/** RTT sample flags */
enum { WL_PROXD_RTT_SAMPLE_NONE = 0x00, WL_PROXD_RTT_SAMPLE_DISCARD = 0x01 };
typedef uint8 wl_proxd_rtt_sample_flags_t;
typedef int16 wl_proxd_rssi_t;
typedef uint16 wl_proxd_snr_t;
typedef uint16 wl_proxd_bitflips_t;

/** result flags */
enum {
    WL_PRXOD_RESULT_FLAG_NONE = 0x0000,
    WL_PROXD_RESULT_FLAG_NLOS = 0x0001,   /**< LOS - if available */
    WL_PROXD_RESULT_FLAG_LOS = 0x0002,    /**< NLOS - if available */
    WL_PROXD_RESULT_FLAG_FATAL = 0x0004,  /**< Fatal error during burst */
    WL_PROXD_RESULT_FLAG_VHTACK = 0x0008, /* VHTACK or Legacy ACK used */
    WL_PROXD_REQUEST_SENT = 0x0010,       /* FTM request was sent */
    WL_PROXD_REQUEST_ACKED = 0x0020,      /* FTM request was acked */
    WL_PROXD_LTFSEQ_STARTED = 0x0040,     /* LTF sequence started */
    WL_PROXD_RESULT_FLAG_ALL = 0xffff
};
typedef int16 wl_proxd_result_flags_t;

#define WL_PROXD_RTT_SAMPLE_VERSION_1 1
typedef struct wl_proxd_rtt_sample_v1 {
    uint8 id; /**< id for the sample - non-zero */
    wl_proxd_rtt_sample_flags_t flags;
    wl_proxd_rssi_t rssi;
    wl_proxd_intvl_t rtt; /**< round trip time */
    uint32 ratespec;
    wl_proxd_snr_t snr;
    wl_proxd_bitflips_t bitflips;
    wl_proxd_status_t status;
    int32 distance;
    wl_proxd_phy_error_t tof_phy_error;
    wl_proxd_phy_error_t tof_tgt_phy_error; /* target phy error bit map */
    wl_proxd_snr_t tof_tgt_snr;
    wl_proxd_bitflips_t tof_tgt_bitflips;
    uint8 coreid;
    uint8 pad[3];
} wl_proxd_rtt_sample_v1_t;

#define WL_PROXD_RTT_RESULT_VERSION_1 1
/** rtt measurement result */
typedef struct wl_proxd_rtt_result_v1 {
    wl_proxd_session_id_t sid;
    wl_proxd_result_flags_t flags;
    wl_proxd_status_t status;
    struct ether_addr peer;
    wl_proxd_session_state_t state; /**< current state */
    union {
        wl_proxd_intvl_t retry_after;    /* hint for errors */
        wl_proxd_intvl_t burst_duration; /* burst duration */
    } u;
    wl_proxd_rtt_sample_v1_t avg_rtt;
    uint32 avg_dist;     /* 1/256m units */
    uint16 sd_rtt;       /* RTT standard deviation */
    uint8 num_valid_rtt; /* valid rtt cnt */
    uint8 num_ftm;       /* actual num of ftm cnt (Configured) */
    uint16 burst_num;    /* in a session */
    uint16 num_rtt;      /* 0 if no detail */
    uint16 num_meas;     /* number of ftm frames seen OTA */
    uint8 pad[2];
    wl_proxd_rtt_sample_v1_t rtt[1]; /* variable */
} wl_proxd_rtt_result_v1_t;

#define WL_PROXD_RTT_SAMPLE_VERSION_2 2
typedef struct wl_proxd_rtt_sample_v2 {
    uint16 version;
    uint16 length;
    uint8 id; /**< id for the sample - non-zero */
    wl_proxd_rtt_sample_flags_t flags;
    wl_proxd_rssi_t rssi;
    wl_proxd_intvl_t rtt; /**< round trip time */
    uint32 ratespec;
    wl_proxd_snr_t snr;
    wl_proxd_bitflips_t bitflips;
    wl_proxd_status_t status;
    int32 distance;
    wl_proxd_phy_error_t tof_phy_error;
    wl_proxd_phy_error_t tof_tgt_phy_error; /* target phy error bit map */
    wl_proxd_snr_t tof_tgt_snr;
    wl_proxd_bitflips_t tof_tgt_bitflips;
    uint8 coreid;
    uint8 pad[3];
    uint32 chanspec;
} wl_proxd_rtt_sample_v2_t;

#define WL_PROXD_RTT_RESULT_VERSION_2 2
/** rtt measurement result */
typedef struct wl_proxd_rtt_result_v2 {
    uint16 version;
    uint16 length; /* up to rtt[] */
    wl_proxd_session_id_t sid;
    wl_proxd_result_flags_t flags;
    wl_proxd_status_t status;
    struct ether_addr peer;
    wl_proxd_session_state_t state; /**< current state */
    union {
        wl_proxd_intvl_t retry_after;    /* hint for errors */
        wl_proxd_intvl_t burst_duration; /* burst duration */
    } u;
    uint32 avg_dist;     /* 1/256m units */
    uint16 sd_rtt;       /* RTT standard deviation */
    uint8 num_valid_rtt; /* valid rtt cnt */
    uint8 num_ftm;       /* actual num of ftm cnt (Configured) */
    uint16 burst_num;    /* in a session */
    uint16 num_rtt;      /* 0 if no detail */
    uint16 num_meas;     /* number of ftm frames seen OTA */
    uint8 pad[2];
    wl_proxd_rtt_sample_v2_t rtt[1]; /* variable, first element is avg_rtt */
} wl_proxd_rtt_result_v2_t;

/** aoa measurement result */
typedef struct wl_proxd_aoa_result {
    wl_proxd_session_id_t sid;
    wl_proxd_result_flags_t flags;
    wl_proxd_status_t status;
    struct ether_addr peer;
    wl_proxd_session_state_t state;
    uint16 burst_num;
    uint8 pad[2];
} BWL_POST_PACKED_STRUCT wl_proxd_aoa_result_t;
#include <packed_section_end.h>

/** global stats */
typedef struct wl_proxd_counters {
    uint32 tx;           /* tx frame count */
    uint32 rx;           /* rx frame count */
    uint32 burst;        /* total number of burst */
    uint32 sessions;     /* total number of sessions */
    uint32 max_sessions; /* max concurrency */
    uint32 sched_fail;   /* scheduling failures */
    uint32 timeouts;     /* timeouts */
    uint32 protoerr;     /* protocol errors */
    uint32 noack;        /* tx w/o ack */
    uint32 txfail;       /* any tx falure */
    uint32 lci_req_tx;   /* tx LCI requests */
    uint32 lci_req_rx;   /* rx LCI requests */
    uint32 lci_rep_tx;   /* tx LCI reports */
    uint32 lci_rep_rx;   /* rx LCI reports */
    uint32 civic_req_tx; /* tx civic requests */
    uint32 civic_req_rx; /* rx civic requests */
    uint32 civic_rep_tx; /* tx civic reports */
    uint32 civic_rep_rx; /* rx civic reports */
    uint32 rctx;         /* ranging contexts created */
    uint32 rctx_done;    /* count of ranging done */
    uint32 publish_err;  /* availability publishing errors */
    uint32 on_chan;      /* count of scheduler onchan */
    uint32 off_chan;     /* count of scheduler offchan */
    uint32 tsf_lo;       /* local tsf or session tsf */
    uint32 tsf_hi;
    uint32 num_meas;
} wl_proxd_counters_t;

typedef struct wl_proxd_counters wl_proxd_session_counters_t;

enum { WL_PROXD_CAP_NONE = 0x0000, WL_PROXD_CAP_ALL = 0xffff };
typedef int16 wl_proxd_caps_t;

/** method capabilities */
enum { WL_PROXD_FTM_CAP_NONE = 0x0000, WL_PROXD_FTM_CAP_FTM1 = 0x0001 };
typedef uint16 wl_proxd_ftm_caps_t;

typedef struct wl_proxd_tlv_id_list {
    uint16 num_ids;
    uint16 ids[1];
} wl_proxd_tlv_id_list_t;

typedef struct wl_proxd_session_id_list {
    uint16 num_ids;
    wl_proxd_session_id_t ids[1];
} wl_proxd_session_id_list_t;

typedef struct wl_proxd_tpk {
    struct ether_addr peer;
    uint8 tpk[TPK_FTM_LEN];
} wl_proxd_tpk_t;

/* tlvs returned for get_info on ftm method
 *	configuration:
 *	proxd flags
 *	event mask
 *	debug mask
 *	session defaults (session tlvs)
 * status tlv - not supported for ftm method
 * info tlv
 */
typedef struct wl_proxd_ftm_info {
    wl_proxd_ftm_caps_t caps;
    uint16 max_sessions;
    uint16 num_sessions;
    uint16 rx_max_burst;
} wl_proxd_ftm_info_t;

enum {
    WL_PROXD_WAIT_NONE = 0x0000,
    WL_PROXD_WAIT_KEY = 0x0001,
    WL_PROXD_WAIT_SCHED = 0x0002,
    WL_PROXD_WAIT_TSF = 0x0004
};
typedef int16 wl_proxd_wait_reason_t;

/* tlvs returned for get_info on session
 * session config (tlvs)
 * session info tlv
 */
typedef struct wl_proxd_ftm_session_info {
    uint16 sid;
    uint8 bss_index;
    uint8 pad;
    struct ether_addr bssid;
    wl_proxd_session_state_t state;
    wl_proxd_status_t status;
    uint16 burst_num;
    wl_proxd_wait_reason_t wait_reason;
    uint32 meas_start_lo; /* sn tsf of 1st meas for cur/prev burst */
    uint32 meas_start_hi;
} wl_proxd_ftm_session_info_t;

typedef struct wl_proxd_ftm_session_status {
    uint16 sid;
    wl_proxd_session_state_t state;
    wl_proxd_status_t status;
    uint16 burst_num;
    uint16 pad;
} wl_proxd_ftm_session_status_t;

/** rrm range request */
typedef struct wl_proxd_range_req {
    uint16 num_repeat;
    uint16 init_delay_range; /**< in TUs */
    uint8 pad;
    uint8 num_nbr; /**< number of (possible) neighbors */
    nbr_element_t nbr[1];
} wl_proxd_range_req_t;

#define WL_PROXD_LCI_LAT_OFF 0
#define WL_PROXD_LCI_LONG_OFF 5
#define WL_PROXD_LCI_ALT_OFF 10

#define WL_PROXD_LCI_GET_LAT(_lci, _lat, _lat_err)                             \
    {                                                                          \
        unsigned _off = WL_PROXD_LCI_LAT_OFF;                                  \
        _lat_err = (_lci)->data[(_off)] & 0x3f;                                \
        _lat = (_lci)->data[(_off) + 1];                                       \
        _lat |= (_lci)->data[(_off) + 2] << 8;                                 \
        _lat |= (_lci)->data[_(_off) + 3] << 16;                               \
        _lat |= (_lci)->data[(_off) + 4] << 24;                                \
        _lat <<= 2;                                                            \
        _lat |= (_lci)->data[(_off)] >> 6;                                     \
    }

#define WL_PROXD_LCI_GET_LONG(_lci, _lcilong, _long_err)                       \
    {                                                                          \
        unsigned _off = WL_PROXD_LCI_LONG_OFF;                                 \
        _long_err = (_lci)->data[(_off)] & 0x3f;                               \
        _lcilong = (_lci)->data[(_off) + 1];                                   \
        _lcilong |= (_lci)->data[(_off) + 2] << 8;                             \
        _lcilong |= (_lci)->data[_(_off) + 3] << 16;                           \
        _lcilong |= (_lci)->data[(_off) + 4] << 24;                            \
        __lcilong <<= 2;                                                       \
        _lcilong |= (_lci)->data[(_off)] >> 6;                                 \
    }

#define WL_PROXD_LCI_GET_ALT(_lci, _alt_type, _alt, _alt_err)                  \
    {                                                                          \
        unsigned _off = WL_PROXD_LCI_ALT_OFF;                                  \
        _alt_type = (_lci)->data[_off] & 0x0f;                                 \
        _alt_err = (_lci)->data[(_off)] >> 4;                                  \
        _alt_err |= ((_lci)->data[(_off) + 1] & 0x03) << 4;                    \
        _alt = (_lci)->data[(_off) + 2];                                       \
        _alt |= (_lci)->data[(_off) + 3] << 8;                                 \
        _alt |= (_lci)->data[_(_off) + 4] << 16;                               \
        _alt <<= 6;                                                            \
        _alt |= (_lci)->data[(_off) + 1] >> 2;                                 \
    }

#define WL_PROXD_LCI_VERSION(_lci) ((_lci)->data[15] >> 6)

/* availability. advertising mechanism bss specific */
/** availablity flags */
enum {
    WL_PROXD_AVAIL_NONE = 0,
    WL_PROXD_AVAIL_NAN_PUBLISHED = 0x0001,
    WL_PROXD_AVAIL_SCHEDULED = 0x0002 /**< scheduled by proxd */
};
typedef int16 wl_proxd_avail_flags_t;

/** time reference */
enum {
    WL_PROXD_TREF_NONE = 0,
    WL_PROXD_TREF_DEV_TSF = 1,
    WL_PROXD_TREF_NAN_DW = 2,
    WL_PROXD_TREF_TBTT = 3,
    WL_PROXD_TREF_MAX /* last entry */
};
typedef int16 wl_proxd_time_ref_t;

/** proxd channel-time slot */
typedef struct {
    wl_proxd_intvl_t start;    /**< from ref */
    wl_proxd_intvl_t duration; /**< from start */
    uint32 chanspec;
} wl_proxd_time_slot_t;

typedef struct wl_proxd_avail24 {
    wl_proxd_avail_flags_t flags; /**< for query only */
    wl_proxd_time_ref_t time_ref;
    uint16 max_slots; /**< for query only */
    uint16 num_slots;
    wl_proxd_time_slot_t slots[1]; /**< ROM compat - not used */
    wl_proxd_intvl_t repeat;
    wl_proxd_time_slot_t ts0[1];
} wl_proxd_avail24_t;
#define WL_PROXD_AVAIL24_TIMESLOT(_avail24, _i) (&(_avail24)->ts0[(_i)])
#define WL_PROXD_AVAIL24_TIMESLOT_OFFSET(_avail24)                             \
    OFFSETOF(wl_proxd_avail24_t, ts0)
#define WL_PROXD_AVAIL24_TIMESLOTS(_avail24)                                   \
    WL_PROXD_AVAIL24_TIMESLOT(_avail24, 0)
#define WL_PROXD_AVAIL24_SIZE(_avail24, _num_slots)                            \
    (WL_PROXD_AVAIL24_TIMESLOT_OFFSET(_avail24) +                              \
     (_num_slots) * sizeof(*WL_PROXD_AVAIL24_TIMESLOT(_avail24, 0)))

typedef struct wl_proxd_avail {
    wl_proxd_avail_flags_t flags; /**< for query only */
    wl_proxd_time_ref_t time_ref;
    uint16 max_slots; /**< for query only */
    uint16 num_slots;
    wl_proxd_intvl_t repeat;
    wl_proxd_time_slot_t slots[1];
} wl_proxd_avail_t;
#define WL_PROXD_AVAIL_TIMESLOT(_avail, _i) (&(_avail)->slots[(_i)])
#define WL_PROXD_AVAIL_TIMESLOT_OFFSET(_avail) OFFSETOF(wl_proxd_avail_t, slots)

#define WL_PROXD_AVAIL_TIMESLOTS(_avail) WL_PROXD_AVAIL_TIMESLOT(_avail, 0)
#define WL_PROXD_AVAIL_SIZE(_avail, _num_slots)                                \
    (WL_PROXD_AVAIL_TIMESLOT_OFFSET(_avail) +                                  \
     (_num_slots) * sizeof(*WL_PROXD_AVAIL_TIMESLOT(_avail, 0)))

/* collect support */

/** debugging */
enum {
    WL_PROXD_DEBUG_NONE = 0x00000000,
    WL_PROXD_DEBUG_LOG = 0x00000001,
    WL_PROXD_DEBUG_IOV = 0x00000002,
    WL_PROXD_DEBUG_EVENT = 0x00000004,
    WL_PROXD_DEBUG_SESSION = 0x00000008,
    WL_PROXD_DEBUG_PROTO = 0x00000010,
    WL_PROXD_DEBUG_SCHED = 0x00000020,
    WL_PROXD_DEBUG_RANGING = 0x00000040,
    WL_PROXD_DEBUG_NAN = 0x00000080,
    WL_PROXD_DEBUG_PKT = 0x00000100,
    WL_PROXD_DEBUG_SEC = 0x00000200,
    WL_PROXD_DEBUG_EVENTLOG =
        0x80000000, /* map/enable EVNET_LOG_TAG_PROXD_INFO */
    WL_PROXD_DEBUG_ALL = 0xffffffff
};
typedef uint32 wl_proxd_debug_mask_t;

/** tlv IDs - data length 4 bytes unless overridden by type, alignment 32 bits
 */
typedef enum {
    WL_PROXD_TLV_ID_NONE = 0,
    WL_PROXD_TLV_ID_METHOD = 1,
    WL_PROXD_TLV_ID_FLAGS = 2,
    WL_PROXD_TLV_ID_CHANSPEC = 3, /**< note: uint32 */
    WL_PROXD_TLV_ID_TX_POWER = 4,
    WL_PROXD_TLV_ID_RATESPEC = 5,
    WL_PROXD_TLV_ID_BURST_DURATION = 6, /**< intvl - length of burst */
    WL_PROXD_TLV_ID_BURST_PERIOD = 7,   /**< intvl - between bursts */
    WL_PROXD_TLV_ID_BURST_FTM_SEP = 8,  /**< intvl - between FTMs */
    WL_PROXD_TLV_ID_BURST_NUM_FTM = 9,  /**< uint16 - per burst */
    WL_PROXD_TLV_ID_NUM_BURST = 10,     /**< uint16 */
    WL_PROXD_TLV_ID_FTM_RETRIES = 11,   /**< uint16 at FTM level */
    WL_PROXD_TLV_ID_BSS_INDEX = 12,     /**< uint8 */
    WL_PROXD_TLV_ID_BSSID = 13,
    WL_PROXD_TLV_ID_INIT_DELAY =
        14, /**< intvl - optional,non-standalone only */
    WL_PROXD_TLV_ID_BURST_TIMEOUT = 15, /**< expect response within - intvl */
    WL_PROXD_TLV_ID_EVENT_MASK = 16,    /**< interested events - in/out */
    WL_PROXD_TLV_ID_FLAGS_MASK = 17,    /**< interested flags - in only */
    WL_PROXD_TLV_ID_PEER_MAC = 18,      /**< mac address of peer */
    WL_PROXD_TLV_ID_FTM_REQ = 19,       /**< dot11_ftm_req */
    WL_PROXD_TLV_ID_LCI_REQ = 20,
    WL_PROXD_TLV_ID_LCI = 21,
    WL_PROXD_TLV_ID_CIVIC_REQ = 22,
    WL_PROXD_TLV_ID_CIVIC = 23,
    WL_PROXD_TLV_ID_AVAIL24 = 24, /**< ROM compatibility */
    WL_PROXD_TLV_ID_SESSION_FLAGS = 25,
    WL_PROXD_TLV_ID_SESSION_FLAGS_MASK = 26, /**< in only */
    WL_PROXD_TLV_ID_RX_MAX_BURST = 27, /**< uint16 - limit bursts per session */
    WL_PROXD_TLV_ID_RANGING_INFO = 28, /**< ranging info */
    WL_PROXD_TLV_ID_RANGING_FLAGS = 29,      /**< uint16 */
    WL_PROXD_TLV_ID_RANGING_FLAGS_MASK = 30, /**< uint16, in only */
    WL_PROXD_TLV_ID_NAN_MAP_ID = 31,
    WL_PROXD_TLV_ID_DEV_ADDR = 32,
    WL_PROXD_TLV_ID_AVAIL = 33,           /**< wl_proxd_avail_t  */
    WL_PROXD_TLV_ID_TLV_ID = 34,          /* uint16 tlv-id */
    WL_PROXD_TLV_ID_FTM_REQ_RETRIES = 35, /* uint16 FTM request retries */
    WL_PROXD_TLV_ID_TPK = 36,             /* 32byte TPK  */
    WL_PROXD_TLV_ID_RI_RR = 36,           /* RI_RR */
    WL_PROXD_TLV_ID_TUNE = 37,            /* wl_proxd_pararms_tof_tune_t */
    WL_PROXD_TLV_ID_CUR_ETHER_ADDR = 38,  /* Source Address used for Tx */

    /* output - 512 + x */
    WL_PROXD_TLV_ID_STATUS = 512,
    WL_PROXD_TLV_ID_COUNTERS = 513,
    WL_PROXD_TLV_ID_INFO = 514,
    WL_PROXD_TLV_ID_RTT_RESULT = 515,
    WL_PROXD_TLV_ID_AOA_RESULT = 516,
    WL_PROXD_TLV_ID_SESSION_INFO = 517,
    WL_PROXD_TLV_ID_SESSION_STATUS = 518,
    WL_PROXD_TLV_ID_SESSION_ID_LIST = 519,
    WL_PROXD_TLV_ID_RTT_RESULT_V2 = 520,

    /* debug tlvs can be added starting 1024 */
    WL_PROXD_TLV_ID_DEBUG_MASK = 1024,
    WL_PROXD_TLV_ID_COLLECT = 1025, /**< output only */
    WL_PROXD_TLV_ID_STRBUF = 1026,

    WL_PROXD_TLV_ID_COLLECT_HEADER = 1025,    /* wl_proxd_collect_header_t */
    WL_PROXD_TLV_ID_COLLECT_INFO = 1028,      /* wl_proxd_collect_info_t */
    WL_PROXD_TLV_ID_COLLECT_DATA = 1029,      /* wl_proxd_collect_data_t */
    WL_PROXD_TLV_ID_COLLECT_CHAN_DATA = 1030, /* wl_proxd_collect_data_t */
    WL_PROXD_TLV_ID_MF_STATS_DATA = 1031,     /* mf_stats_buffer */

    WL_PROXD_TLV_ID_COLLECT_INLINE_HEADER = 1032,
    WL_PROXD_TLV_ID_COLLECT_INLINE_FRAME_INFO = 1033,
    WL_PROXD_TLV_ID_COLLECT_INLINE_FRAME_DATA = 1034,
    WL_PROXD_TLV_ID_COLLECT_INLINE_RESULTS = 1035,

    WL_PROXD_TLV_ID_MAX
} wl_proxd_tlv_types_t;

#define TOF_COLLECT_INLINE_HEADER_INFO_VER_1 1

typedef struct wl_proxd_collect_inline_header_info_v1 {
    uint16 version;
    uint16 pad1;
    uint32 ratespec; /* override */
    chanspec_t chanspec;
    uint16 num_ftm;
    struct ether_addr peer_mac;
    struct ether_addr cur_ether_addr; /* source address for Tx */
} wl_proxd_collect_inline_header_info_v1_t;

#define TOF_COLLECT_INLINE_RESULTS_VER_1 1
typedef struct wl_proxd_collect_inline_results_info_v1 {
    uint16 version;
    uint16 pad1;
    uint32 meanrtt;
    uint32 distance;
    uint16 num_rtt;
    uint16 pad2;
    int32 status;
    uint32 ratespec;
} wl_proxd_collect_inline_results_info_v1_t;

#define TOF_COLLECT_INLINE_FRAME_INFO_VER_1 1
typedef struct wl_proxd_collect_inline_frame_info_v1 {
    uint16 version;
    uint16 pad1;
    int32 gd;
    uint32 T[4];
    uint32 prev_t1;
    uint32 prev_t4;
    int32 hadj;
    int8 rssi;
    uint8 pad[3];
} wl_proxd_collect_inline_frame_info_v1_t;

#define TOF_COLLECT_INLINE_FRAME_INFO_VER_2 2
typedef struct wl_proxd_collect_inline_frame_info_v2 {
    uint16 version;
    uint16 pad1;
    int32 gd;
    uint32 T[4];
    int32 hadj;
    int8 rssi;
    uint8 pad[3];
} wl_proxd_collect_inline_frame_info_v2_t;

typedef struct wl_proxd_tlv {
    uint16 id;
    uint16 len;
    uint8 data[1];
} wl_proxd_tlv_t;

/** proxd iovar - applies to proxd, method or session */
typedef struct wl_proxd_iov {
    uint16 version;
    uint16 len;
    wl_proxd_cmd_t cmd;
    wl_proxd_method_t method;
    wl_proxd_session_id_t sid;
    uint8 PAD[2];
    wl_proxd_tlv_t tlvs[1]; /**< variable */
} wl_proxd_iov_t;

#define WL_PROXD_IOV_HDR_SIZE OFFSETOF(wl_proxd_iov_t, tlvs)

/* The following event definitions may move to bcmevent.h, but sharing proxd
 * types across needs more invasive changes unrelated to proxd
 */
enum {
    WL_PROXD_EVENT_NONE = 0, /**< not an event, reserved */
    WL_PROXD_EVENT_SESSION_CREATE = 1,
    WL_PROXD_EVENT_SESSION_START = 2,
    WL_PROXD_EVENT_FTM_REQ = 3,
    WL_PROXD_EVENT_BURST_START = 4,
    WL_PROXD_EVENT_BURST_END = 5,
    WL_PROXD_EVENT_SESSION_END = 6,
    WL_PROXD_EVENT_SESSION_RESTART = 7,
    WL_PROXD_EVENT_BURST_RESCHED = 8, /**< burst rescheduled-e.g. partial TSF */
    WL_PROXD_EVENT_SESSION_DESTROY = 9,
    WL_PROXD_EVENT_RANGE_REQ = 10,
    WL_PROXD_EVENT_FTM_FRAME = 11,
    WL_PROXD_EVENT_DELAY = 12,
    WL_PROXD_EVENT_VS_INITIATOR_RPT = 13, /**< (target) rx initiator-report */
    WL_PROXD_EVENT_RANGING = 14,
    WL_PROXD_EVENT_LCI_MEAS_REP = 15,   /* LCI measurement report */
    WL_PROXD_EVENT_CIVIC_MEAS_REP = 16, /* civic measurement report */
    WL_PROXD_EVENT_COLLECT = 17,
    WL_PROXD_EVENT_START_WAIT = 18, /* waiting to start */
    WL_PROXD_EVENT_MF_STATS = 19,   /* mf stats event */

    WL_PROXD_EVENT_MAX
};
typedef int16 wl_proxd_event_type_t;

/** proxd event mask - upto 32 events for now */
typedef uint32 wl_proxd_event_mask_t;

#define WL_PROXD_EVENT_MASK_ALL 0xfffffffe
#define WL_PROXD_EVENT_MASK_EVENT(_event_type) (1 << (_event_type))
#define WL_PROXD_EVENT_ENABLED(_mask, _event_type)                             \
    (((_mask)&WL_PROXD_EVENT_MASK_EVENT(_event_type)) != 0)

/** proxd event - applies to proxd, method or session */
typedef struct wl_proxd_event {
    uint16 version;
    uint16 len;
    wl_proxd_event_type_t type;
    wl_proxd_method_t method;
    wl_proxd_session_id_t sid;
    uint8 pad[2];           /* This field is used fragmentation purpose */
    wl_proxd_tlv_t tlvs[1]; /**< variable */
} wl_proxd_event_t;

enum {
    WL_PROXD_RANGING_STATE_NONE = 0,
    WL_PROXD_RANGING_STATE_NOTSTARTED = 1,
    WL_PROXD_RANGING_STATE_INPROGRESS = 2,
    WL_PROXD_RANGING_STATE_DONE = 3
};
typedef int16 wl_proxd_ranging_state_t;

/** proxd ranging flags */
enum {
    WL_PROXD_RANGING_FLAG_NONE = 0x0000, /**< no flags */
    WL_PROXD_RANGING_FLAG_DEL_SESSIONS_ON_STOP = 0x0001,
    WL_PROXD_RANGING_FLAG_ALL = 0xffff
};
typedef uint16 wl_proxd_ranging_flags_t;

struct wl_proxd_ranging_info {
    wl_proxd_status_t status;
    wl_proxd_ranging_state_t state;
    wl_proxd_ranging_flags_t flags;
    uint16 num_sids;
    uint16 num_done;
};
typedef struct wl_proxd_ranging_info wl_proxd_ranging_info_t;

#include <packed_section_start.h>
/* Legacy platform i.e. 43342/43430 */
#define WL_PROXD_COLLECT_EVENT_DATA_VERSION_1 1
typedef BWL_PRE_PACKED_STRUCT struct wl_proxd_collect_event_data_v1 {
    uint32 H_LB[K_TOF_COLLECT_H_SIZE_20MHZ];
    uint32 H_RX[K_TOF_COLLECT_H_SIZE_20MHZ];
    uint8 ri_rr[FTM_TPK_LEN];
    wl_proxd_phy_error_t phy_err_mask;
} BWL_POST_PACKED_STRUCT wl_proxd_collect_event_data_v1_t;

/* Secured 2.0 supoorted devices i.e. 4364 */
#define WL_PROXD_COLLECT_EVENT_DATA_VERSION_2 2
typedef BWL_PRE_PACKED_STRUCT struct wl_proxd_collect_event_data_v2 {
    uint32 H_LB[K_TOF_COLLECT_H_SIZE_20MHZ];
    uint32 H_RX[K_TOF_COLLECT_H_SIZE_20MHZ];
    uint8 ri_rr[FTM_TPK_RI_RR_LEN_SECURE_2_0];
    wl_proxd_phy_error_t phy_err_mask;
} BWL_POST_PACKED_STRUCT wl_proxd_collect_event_data_v2_t;
#include <packed_section_end.h>

#define WL_PROXD_COLLECT_EVENT_DATA_VERSION_3 3
typedef struct wl_proxd_collect_event_data_v3 {
    uint16 version;
    uint16 length;
    uint32 H_LB[K_TOF_COLLECT_H_SIZE_20MHZ];
    uint32 H_RX[K_TOF_COLLECT_H_SIZE_20MHZ];
    uint8 ri_rr[FTM_TPK_RI_RR_LEN_SECURE_2_0];
    wl_proxd_phy_error_t phy_err_mask;
} wl_proxd_collect_event_data_v3_t;

#define WL_PROXD_COLLECT_EVENT_DATA_VERSION_MAX                                \
    WL_PROXD_COLLECT_EVENT_DATA_VERSION_3

/** Data returned by the bssload_report iovar. This is also the WLC_E_BSS_LOAD
 * event data */
#include <packed_section_start.h>
typedef BWL_PRE_PACKED_STRUCT struct wl_bssload {
    uint16 sta_count; /**< station count */
    uint16 aac;       /**< available admission capacity */
    uint8 chan_util;  /**< channel utilization */
} BWL_POST_PACKED_STRUCT wl_bssload_t;
#include <packed_section_end.h>

/**
 * Maximum number of configurable BSS Load levels.  The number of BSS Load
 * ranges is always 1 more than the number of configured levels.  eg. if
 * 3 levels of 10, 20, 30 are configured then this defines 4 load ranges:
 * 0-10, 11-20, 21-30, 31-255.  A WLC_E_BSS_LOAD event is generated each time
 * the utilization level crosses into another range, subject to the rate limit.
 */
#define MAX_BSSLOAD_LEVELS 8
#define MAX_BSSLOAD_RANGES (MAX_BSSLOAD_LEVELS + 1)

/** BSS Load event notification configuration. */
typedef struct wl_bssload_cfg {
    uint32 rate_limit_msec; /**< # of events posted to application will be
                             * limited to one per specified period (0 to disable
                             * rate limit).
                             */
    uint8 num_util_levels;  /**< Number of entries in util_levels[] below */
    uint8 util_levels[MAX_BSSLOAD_LEVELS];
    /**< Variable number of BSS Load utilization levels in
     * low to high order.  An event will be posted each time
     * a received beacon's BSS Load IE channel utilization
     * value crosses a level.
     */
    uint8 PAD[3];
} wl_bssload_cfg_t;

/** Multiple roaming profile suport */
#define WL_MAX_ROAM_PROF_BRACKETS 4

#define WL_ROAM_PROF_VER_0 0
#define WL_ROAM_PROF_VER_1 1
#define WL_ROAM_PROF_VER_2 2
#define WL_MAX_ROAM_PROF_VER WL_ROAM_PROF_VER_1

#define WL_ROAM_PROF_NONE (0 << 0)
#define WL_ROAM_PROF_LAZY (1 << 0)
#define WL_ROAM_PROF_NO_CI (1 << 1)
#define WL_ROAM_PROF_SUSPEND (1 << 2)
#define WL_ROAM_PROF_SYNC_DTIM (1 << 6)
#define WL_ROAM_PROF_DEFAULT                                                   \
    (1 << 7) /**< backward compatible single default profile */

#define WL_FACTOR_TABLE_MAX_LIMIT 5

#define WL_CU_2G_ROAM_TRIGGER (-60)
#define WL_CU_5G_ROAM_TRIGGER (-70)

#define WL_CU_SCORE_DELTA_DEFAULT 20

#define WL_MAX_CHANNEL_USAGE 0x0FF
#define WL_CU_PERCENTAGE_DISABLE 0
#define WL_CU_PERCENTAGE_DEFAULT 70
#define WL_CU_PERCENTAGE_MAX 100
#define WL_CU_CALC_DURATION_DEFAULT 10 /* seconds */
#define WL_CU_CALC_DURATION_MAX 60     /* seconds */

#define WL_ESTM_LOW_TRIGGER_DISABLE 0
#define WL_ESTM_LOW_TRIGGER_DEFAULT 5 /* Mbps */
#define WL_ESTM_LOW_TRIGGER_MAX 250   /* Mbps */
#define WL_ESTM_ROAM_DELTA_DEFAULT 10

typedef struct wl_roam_prof_v3 {
    uint8 roam_flags;  /**< bit flags */
    int8 roam_trigger; /**< RSSI trigger level per profile/RSSI bracket */
    int8 rssi_lower;
    int8 roam_delta;

    /* if channel_usage if zero, roam_delta is rssi delta required for new AP */
    /* if channel_usage if non-zero, roam_delta is score delta(%) required for
     * new AP */
    int8 rssi_boost_thresh; /**< Min RSSI to qualify for RSSI boost */
    int8 rssi_boost_delta;  /**< RSSI boost for AP in the other band */
    uint16 nfscan;          /**< number of full scan to start with */
    uint16 fullscan_period;
    uint16 init_scan_period;
    uint16 backoff_multiplier;
    uint16 max_scan_period;
    uint8 channel_usage;
    uint8 cu_avg_calc_dur;
    uint16 estm_low_trigger; /**< ESTM low throughput roam trigger */
    int8 estm_roam_delta;    /**< ESTM low throughput roam delta */
    uint8 pad;
} wl_roam_prof_v3_t;

typedef struct wl_roam_prof_v2 {
    int8 roam_flags;   /**< bit flags */
    int8 roam_trigger; /**< RSSI trigger level per profile/RSSI bracket */
    int8 rssi_lower;
    int8 roam_delta;

    /* if channel_usage if zero, roam_delta is rssi delta required for new AP */
    /* if channel_usage if non-zero, roam_delta is score delta(%) required for
     * new AP */
    int8 rssi_boost_thresh; /**< Min RSSI to qualify for RSSI boost */
    int8 rssi_boost_delta;  /**< RSSI boost for AP in the other band */
    uint16 nfscan;          /**< number of full scan to start with */
    uint16 fullscan_period;
    uint16 init_scan_period;
    uint16 backoff_multiplier;
    uint16 max_scan_period;
    uint8 channel_usage;
    uint8 cu_avg_calc_dur;
    uint8 pad[2];
} wl_roam_prof_v2_t;

typedef struct wl_roam_prof_v1 {
    int8 roam_flags;   /**< bit flags */
    int8 roam_trigger; /**< RSSI trigger level per profile/RSSI bracket */
    int8 rssi_lower;
    int8 roam_delta;

    /* if channel_usage if zero, roam_delta is rssi delta required for new AP */
    /* if channel_usage if non-zero, roam_delta is score delta(%) required for
     * new AP */
    int8 rssi_boost_thresh; /**< Min RSSI to qualify for RSSI boost */
    int8 rssi_boost_delta;  /**< RSSI boost for AP in the other band */
    uint16 nfscan;          /**< number of full scan to start with */
    uint16 fullscan_period;
    uint16 init_scan_period;
    uint16 backoff_multiplier;
    uint16 max_scan_period;
} wl_roam_prof_v1_t;

typedef struct wl_roam_prof_band_v3 {
    uint32 band; /**< Must be just one band */
    uint16 ver;  /**< version of this struct */
    uint16 len;  /**< length in bytes of this structure */
    wl_roam_prof_v3_t roam_prof[WL_MAX_ROAM_PROF_BRACKETS];
} wl_roam_prof_band_v3_t;

typedef struct wl_roam_prof_band_v2 {
    uint32 band; /**< Must be just one band */
    uint16 ver;  /**< version of this struct */
    uint16 len;  /**< length in bytes of this structure */
    wl_roam_prof_v2_t roam_prof[WL_MAX_ROAM_PROF_BRACKETS];
} wl_roam_prof_band_v2_t;

typedef struct wl_roam_prof_band_v1 {
    uint32 band; /**< Must be just one band */
    uint16 ver;  /**< version of this struct */
    uint16 len;  /**< length in bytes of this structure */
    wl_roam_prof_v1_t roam_prof[WL_MAX_ROAM_PROF_BRACKETS];
} wl_roam_prof_band_v1_t;

#define BSS_MAXTABLE_SIZE 10
#define WNM_BSS_SELECT_FACTOR_VERSION 1
typedef struct wnm_bss_select_factor_params {
    uint8 low;
    uint8 high;
    uint8 factor;
    uint8 pad;
} wnm_bss_select_factor_params_t;

#define WNM_BSS_SELECT_FIXED_SIZE OFFSETOF(wnm_bss_select_factor_cfg_t, params)
typedef struct wnm_bss_select_factor_cfg {
    uint8 version;
    uint8 band;
    uint16 type;
    uint16 pad;
    uint16 count;
    wnm_bss_select_factor_params_t params[1];
} wnm_bss_select_factor_cfg_t;

#define WNM_BSS_SELECT_WEIGHT_VERSION 1
typedef struct wnm_bss_select_weight_cfg {
    uint8 version;
    uint8 band;
    uint16 type;
    uint16 weight; /* weightage for each type between 0 to 100 */
} wnm_bss_select_weight_cfg_t;

/* For branches before koala .. wbtext is part
 * of wnm need to use below type only
 */
typedef struct wnm_btm_default_score_cfg {
    uint32 default_score; /* default score */
    uint8 band;
} wnm_btm_default_score_cfg_t;

/* For branches from koala and above .. wbtext is
 * seperate module..need to use below type only
 */
typedef struct wbtext_btm_default_score_cfg {
    uint32 default_score; /* default score */
    uint8 band;
} wbtext_btm_default_score_cfg_t;

#define WNM_BSS_SELECT_TYPE_RSSI 0
#define WNM_BSS_SELECT_TYPE_CU 1
#define WNM_BSS_SELECT_TYPE_ESTM_DL 2

#define WNM_BSSLOAD_MONITOR_VERSION 1
typedef struct wnm_bssload_monitor_cfg {
    uint8 version;
    uint8 band;
    uint8 duration; /* duration between 1 to 20sec */
} wnm_bssload_monitor_cfg_t;

#define WNM_ROAM_TRIGGER_VERSION 1
typedef struct wnm_roam_trigger_cfg {
    uint8 version;
    uint8 band;
    uint16 type;
    int16 trigger; /* trigger for each type in new roam algorithm */
} wnm_roam_trigger_cfg_t;

/* Data structures for Interface Create/Remove  */

#define WL_INTERFACE_CREATE_VER (0)
#define WL_INTERFACE_CREATE_VER_1 1
#define WL_INTERFACE_CREATE_VER_2 2
#define WL_INTERFACE_CREATE_VER_3 3

/*
 * The flags filed of the wl_interface_create is designed to be
 * a Bit Mask. As of now only Bit 0 and Bit 1 are used as mentioned below.
 * The rest of the bits can be used, incase we have to provide
 * more information to the dongle
 */

/*
 * Bit 0 of flags field is used to inform whether the interface requested to
 * be created is STA or AP.
 * 0 - Create a STA interface
 * 1 - Create an AP interface
 * NOTE: This Bit 0 is applicable for the WL_INTERFACE_CREATE_VER < 2
 */
#define WL_INTERFACE_CREATE_STA (0 << 0)
#define WL_INTERFACE_CREATE_AP (1 << 0)

/*
 * From revision >= 2 Bit 0 of flags field will not used be for STA or AP
 * interface creation. "iftype" field shall be used for identifying the
 * interface type.
 */
typedef enum wl_interface_type {
    WL_INTERFACE_TYPE_STA = 0,
    WL_INTERFACE_TYPE_AP = 1,
    WL_INTERFACE_TYPE_NAN = 3,
    WL_INTERFACE_TYPE_P2P_GO = 4,
    WL_INTERFACE_TYPE_P2P_GC = 5,
    WL_INTERFACE_TYPE_P2P_DISC = 6,
    WL_INTERFACE_TYPE_IBSS = 7,
    WL_INTERFACE_TYPE_MAX
} wl_interface_type_t;

/*
 * Bit 1 of flags field is used to inform whether MAC is present in the
 * data structure or not.
 * 0 - Ignore mac_addr field
 * 1 - Use the mac_addr field
 */
#define WL_INTERFACE_MAC_DONT_USE (0 << 1)
#define WL_INTERFACE_MAC_USE (1 << 1)

/*
 * Bit 2 of flags field is used to inform whether core or wlc index
 * is present in the data structure or not.
 * 0 - Ignore wlc_index field
 * 1 - Use the wlc_index field
 */
#define WL_INTERFACE_WLC_INDEX_DONT_USE (0 << 2)
#define WL_INTERFACE_WLC_INDEX_USE (1 << 2)

/*
 * Bit 3 of flags field is used to create interface on the host requested
 * interface index 0 - Ignore if_index field 1 - Use the if_index field
 */
#define WL_INTERFACE_IF_INDEX_USE (1 << 3)

/*
 * Bit 4 of flags field is used to assign BSSID
 * 0 - Ignore bssid field
 * 1 - Use the bssid field
 */
#define WL_INTERFACE_BSSID_INDEX_USE (1 << 4)

typedef struct wl_interface_create {
    uint16 ver;                 /* version of this struct */
    uint32 flags;               /* flags that defines the operation */
    struct ether_addr mac_addr; /* Optional Mac address */
} wl_interface_create_t;

typedef struct wl_interface_create_v1 {
    uint16 ver;                 /**< version of this struct */
    uint8 pad1[2];              /**< Padding bytes */
    uint32 flags;               /**< flags that defines the operation */
    struct ether_addr mac_addr; /**< Optional Mac address */
    uint8 pad2[2];              /**< Padding bytes */
    uint32 wlc_index;           /**< Optional wlc index */
} wl_interface_create_v1_t;

typedef struct wl_interface_create_v2 {
    uint16 ver;                 /**< version of this struct */
    uint8 pad1[2];              /**< Padding bytes */
    uint32 flags;               /**< flags that defines the operation */
    struct ether_addr mac_addr; /**< Optional Mac address */
    uint8 iftype;               /**< Type of interface created */
    uint8 pad2;                 /**< Padding bytes */
    uint32 wlc_index;           /**< Optional wlc index */
} wl_interface_create_v2_t;

typedef struct wl_interface_create_v3 {
    uint16 ver; /**< version of this struct */
    uint16 len; /**< length of whole structure including variable length */
    uint16 fixed_len; /**< Fixed length of this structure excluding data[] */
    uint8 iftype;     /**< Type of interface created */
    uint8 wlc_index;  /**< Optional wlc index */
    uint32 flags;     /**< flags that defines the operation */
    struct ether_addr mac_addr; /**< Optional Mac address */
    struct ether_addr bssid;    /**< Optional BSSID */
    uint8 if_index;             /**< interface index requested by Host */
    uint8 pad[3]; /**< Padding bytes to ensure data[] is at 32 bit aligned */
    uint8 data[]; /**< Optional application/Module specific data */
} wl_interface_create_v3_t;

#define WL_INTERFACE_INFO_VER_1 1
#define WL_INTERFACE_INFO_VER_2 2

typedef struct wl_interface_info {
    uint16 ver;                      /* version of this struct */
    struct ether_addr mac_addr;      /* MAC address of the interface */
    char ifname[BCM_MSG_IFNAME_MAX]; /* name of interface */
    uint8 bsscfgidx;                 /* source bsscfg index */
} wl_interface_info_t;

typedef struct wl_interface_info_v1 {
    uint16 ver;                      /**< version of this struct */
    struct ether_addr mac_addr;      /**< MAC address of the interface */
    char ifname[BCM_MSG_IFNAME_MAX]; /**< name of interface */
    uint8 bsscfgidx;                 /**< source bsscfg index */
    uint8 PAD;
} wl_interface_info_v1_t;

typedef struct wl_interface_info_v2 {
    uint16 ver;                      /**< version of this struct */
    uint16 length;                   /**< length of the whole structure */
    struct ether_addr mac_addr;      /**< MAC address of the interface */
    uint8 bsscfgidx;                 /**< source bsscfg index */
    uint8 if_index;                  /**< Interface index allocated by FW */
    char ifname[BCM_MSG_IFNAME_MAX]; /**< name of interface */
} wl_interface_info_v2_t;

#define PHY_RXIQEST_AVERAGING_DELAY 10

typedef struct wl_iqest_params {
    uint32 rxiq;
    uint8 niter;
    uint8 delay;
    uint8 PAD[2];
} wl_iqest_params_t;

typedef struct wl_iqest_sweep_params {
    wl_iqest_params_t params;
    uint8 nchannels;
    uint8 channel[3]; /** variable */
} wl_iqest_sweep_params_t;

typedef struct wl_iqest_value {
    uint8 channel;
    uint8 PAD[3];
    uint32 rxiq;
} wl_iqest_value_t;

typedef struct wl_iqest_result {
    uint8 nvalues;
    uint8 PAD[3];
    wl_iqest_value_t value[1];
} wl_iqest_result_t;

#define WL_PRIO_ROAM_PROF_V1 (1u)

typedef struct wl_prio_roam_prof_v1 {
    uint16 version;       /* Version info */
    uint16 length;        /* byte length of this structure */
    uint8 prio_roam_mode; /* Roam mode RCC/RCC+Full Scan */
    uint8 PAD[3];
} wl_prio_roam_prof_v1_t;

typedef enum wl_prio_roam_mode {
    PRIO_ROAM_MODE_OFF = 0,          /* Prio_Roam feature disable */
    PRIO_ROAM_MODE_RCC_ONLY = 1,     /* Scan RCC list only */
    PRIO_ROAM_MODE_RCC_FULLSCAN = 2, /* Scan RCC list + Full scan */
    PRIO_ROAM_MODE_FULLSCAN_ONLY = 3 /* Full Scan only */
} wl_prio_roam_mode_t;

/* BTCX AIBSS (Oxygen) Status */
typedef struct wlc_btc_aibss_info {
    uint32 prev_tsf_l;           // Lower 32 bits of last read of TSF
    uint32 prev_tsf_h;           // Higher 32 bits of last read of TSF
    uint32 last_btinfo;          // Last read of BT info
    uint32 local_btinfo;         // Local BT INFO BitMap
    uint8 bt_out_of_sync_cnt;    // BT not in sync with strobe
    uint8 esco_off_cnt;          // Count incremented when ESCO is off
    uint8 strobe_enabled;        // Set only in AIBSS mode
    uint8 strobe_on;             // strobe to BT is on for Oxygen
    uint8 local_bt_in_sync;      // Sync status of local BT when strobe is on
    uint8 other_bt_in_sync;      // Sync state of BT in other devices in AIBSS
    uint8 local_bt_is_master;    // Local BT is master
    uint8 sco_prot_on;           // eSCO Protection on in local device
    uint8 other_esco_present;    // eSCO status in other devices in AIBSS
    uint8 rx_agg_change;         // Indicates Rx Agg size needs to change
    uint8 rx_agg_modified;       // Rx Agg size modified
    uint8 acl_grant_set;         // ACL grants on for speeding up sync
    uint8 write_ie_err_cnt;      // BTCX Ie write error cnt
    uint8 parse_ie_err_cnt;      // BTCX IE parse error cnt
    uint8 wci2_fail_cnt;         // WCI2 init failure cnt
    uint8 strobe_enable_err_cnt; // Strobe enable err cnt
    uint8 strobe_init_err_cnt;   // Strobe init err cnt
    uint8 tsf_jump_cnt;          // TSF jump cnt
    uint8 acl_grant_cnt;         // ALC grant cnt
    uint8 pad1;
    uint16 ibss_tsf_shm; // SHM address of strobe TSF
    uint16 pad2;
} wlc_btc_aibss_info_t;

#define WLC_BTC_AIBSS_STATUS_VER 1
#define WLC_BTC_AIBSS_STATUS_LEN                                               \
    (sizeof(wlc_btc_aibss_status_t) - 2 * (sizeof(uint16)))

typedef struct wlc_btc_aibss_status {
    uint16 version;    // Version #
    uint16 len;        // Length of the structure(excluding len & version)
    int32 mode;        // Current value of btc_mode
    uint16 bth_period; // bt coex period. read from shm.
    uint16 agg_off_bm; // AGG OFF BM read from SHM
    uint8 bth_active;  // bt active session
    uint8 pad[3];
    wlc_btc_aibss_info_t aibss_info; // Structure definition above
} wlc_btc_aibss_status_t;

typedef enum {
    STATE_NONE = 0,

    /* WLAN -> BT */
    W2B_DATA_SET = 21,
    B2W_ACK_SET = 22,
    W2B_DATA_CLEAR = 23,
    B2W_ACK_CLEAR = 24,

    /* BT -> WLAN */
    B2W_DATA_SET = 31,
    W2B_ACK_SET = 32,
    B2W_DATA_CLEAR = 33,
    W2B_ACK_CLEAR = 34
} bwte_gci_intstate_t;

#define WL_BWTE_STATS_VERSION 1 /* version of bwte_stats_t */
typedef struct {
    uint32 version;

    bwte_gci_intstate_t inttobt;
    bwte_gci_intstate_t intfrombt;

    uint32 bt2wl_intrcnt; /* bt->wlan interrrupt count */
    uint32 wl2bt_intrcnt; /* wlan->bt interrupt count  */

    uint32 wl2bt_dset_cnt;
    uint32 wl2bt_dclear_cnt;
    uint32 wl2bt_aset_cnt;
    uint32 wl2bt_aclear_cnt;

    uint32 bt2wl_dset_cnt;
    uint32 bt2wl_dclear_cnt;
    uint32 bt2wl_aset_cnt;
    uint32 bt2wl_aclear_cnt;

    uint32 state_error_1;
    uint32 state_error_2;
    uint32 state_error_3;
    uint32 state_error_4;
} bwte_stats_t;

#define TBOW_MAX_SSID_LEN 32
#define TBOW_MAX_PASSPHRASE_LEN 63

#define WL_TBOW_SETUPINFO_T_VERSION 1 /* version of tbow_setup_netinfo_t */
typedef struct tbow_setup_netinfo {
    uint32 version;
    uint8 opmode;
    uint8 pad;
    uint8 macaddr[ETHER_ADDR_LEN];
    uint32 ssid_len;
    uint8 ssid[TBOW_MAX_SSID_LEN];
    uint8 passphrase_len;
    uint8 passphrase[TBOW_MAX_PASSPHRASE_LEN];
    chanspec_t chanspec;
    uint8 PAD[2];
    uint32 channel;
} tbow_setup_netinfo_t;

typedef enum tbow_ho_opmode {
    TBOW_HO_MODE_START_GO = 0,
    TBOW_HO_MODE_START_STA,
    TBOW_HO_MODE_START_GC,
    TBOW_HO_MODE_TEST_GO,
    TBOW_HO_MODE_STOP_GO = 0x10,
    TBOW_HO_MODE_STOP_STA,
    TBOW_HO_MODE_STOP_GC,
    TBOW_HO_MODE_TEARDOWN
} tbow_ho_opmode_t;

/* Beacon trim feature statistics */
/* configuration */
#define BCNTRIMST_PER 0    /* Number of beacons to trim (0: disable) */
#define BCNTRIMST_TIMEND 1 /* Number of bytes till TIM IE */
#define BCNTRIMST_TSFLMT 2 /* TSF tolerance value (usecs) */
/* internal use */
#define BCNTRIMST_CUR 3     /* PSM's local beacon trim counter */
#define BCNTRIMST_PREVLEN 4 /* Beacon length excluding the TIM IE */
#define BCNTRIMST_TIMLEN 5  /* TIM IE Length */
#define BCNTRIMST_RSSI 6    /* Partial beacon RSSI */
#define BCNTRIMST_CHAN 7    /* Partial beacon channel */
/* debug stat (off by default) */
#define BCNTRIMST_DUR 8      /* RX duration until beacon trimmed */
#define BCNTRIMST_RXMBSS 9   /* MYBSSID beacon received */
#define BCNTRIMST_CANTRIM 10 /* # beacons which were trimmed */
#define BCNTRIMST_LENCHG 11  /* # beacons not trimmed due to length change */
#define BCNTRIMST_TSFDRF 12  /* # beacons not trimmed due to large TSF delta */
#define BCNTRIMST_NOTIM 13   /* # beacons not trimmed due to TIM missing */

#define BCNTRIMST_NUM 14

#define WL_BCNTRIM_STATUS_VERSION_1 1
typedef struct wl_bcntrim_status_query_v1 {
    uint16 version;
    uint16 len;   /* Total length includes fixed fields */
    uint8 reset;  /* reset after reading the stats */
    uint8 pad[3]; /* 4-byte alignment */
} wl_bcntrim_status_query_v1_t;

typedef struct wl_bcntrim_status_v1 {
    uint16 version;
    uint16 len; /* Total length includes fixed fields and variable data[] */
    uint8 curr_slice_id; /* slice index of the interface */
    uint8 applied_cfg;   /* applied bcntrim N threshold */
    uint8 pad[2];        /* 4-byte alignment */
    uint32 fw_status;    /* Bits representing bcntrim disable reason in FW */
    uint32 total_disable_dur; /* total duration (msec) bcntrim remains
                                 disabled due to FW disable reasons
                               */
    uint32 data[];            /* variable length data containing stats */
} wl_bcntrim_status_v1_t;

#define BCNTRIM_STATS_MAX 10 /* Total stats part of the status data[] */

/* Bits for FW status */
#define WL_BCNTRIM_DISABLE_HOST                                                \
    0x1 /* Host disabled bcntrim through bcntrim IOVar */
#define WL_BCNTRIM_DISABLE_PHY_RATE                                            \
    0x2 /* bcntrim disabled because beacon rx rate is                          \
         * higher than phy_rate_thresh                                         \
         */
#define WL_BCNTRIM_DISABLE_QUIET_IE                                            \
    0x4 /* bcntrim disable when Quiet IE present */
#define WL_BCNTRIM_DISABLE_QBSSLOAD_IE                                         \
    0x8 /* bcntrim disable when QBSS Load IE present */
#define WL_BCNTRIM_DISABLE_OPERMODE_IE                                         \
    0x10 /* bcntrim dsiable when opermode IE is present */
#define WL_BCNTRIM_DISABLE_CSA_IE                                              \
    0x20 /* bcntrim dsiable when CSA IE is present */

#define BCNTRIM_DISABLE_THRESHOLD_TIME                                         \
    1000 * 10 /* enable bcntrim after a threshold (10sec)                      \
               * when disabled due to above mentioned IE's                     \
               */
#define WL_BCNTRIM_CFG_VERSION_1 1
/* Common IOVAR struct */
typedef struct wl_bcntrim_cfg_v1 {
    uint16 version;
    uint16 len; /* Total length includes fixed fields and variable data[] */
    uint16 subcmd_id; /* subcommand id */
    uint16 pad;       /* pad/reserved */
    uint8 data[];     /* subcommand data; could be empty */
} wl_bcntrim_cfg_v1_t;

/* subcommands ids */
enum {
    WL_BCNTRIM_CFG_SUBCMD_PHY_RATE_THRESH = 0, /* PHY rate threshold above
                                                  which bcntrim is not applied
                                                */
    WL_BCNTRIM_CFG_SUBCMD_OVERRIDE_DISABLE_MASK =
        1, /* Override bcntrim disable reasons */
    WL_BCNTRIM_CFG_SUBCMD_TSF_DRIFT_LIMIT =
        2 /* TSF drift limit to consider bcntrim */
};

#define BCNTRIM_MAX_PHY_RATE 48     /* in 500Kbps */
#define BCNTRIM_MAX_TSF_DRIFT 65535 /* in usec */
#define WL_BCNTRIM_OVERRIDE_DISABLE_MASK                                       \
    (WL_BCNTRIM_DISABLE_QUIET_IE | WL_BCNTRIM_DISABLE_QBSSLOAD_IE)

/* WL_BCNTRIM_CFG_SUBCMD_PHY_RATE_TRESH */
typedef struct wl_bcntrim_cfg_phy_rate_thresh {
    uint32 rate; /* beacon rate (in 500kbps units)  */
} wl_bcntrim_cfg_phy_rate_thresh_t;

/* WL_BCNTRIM_CFG_SUBCMD_OVERRIDE_DISABLE_MASK */
typedef struct wl_bcntrim_cfg_override_disable_mask {
    uint32 mask; /* bits representing individual disable reason to override */
} wl_bcntrim_cfg_override_disable_mask_t;

/* WL_BCNTRIM_CFG_SUBCMD_TSF_DRIFT_LIMIT */
typedef struct wl_bcntrim_cfg_tsf_drift_limit {
    uint16 drift; /* tsf drift limit specified in usec */
    uint8 pad[2]; /* 4-byte alignment */
} wl_bcntrim_cfg_tsf_drift_limit_t;

/* --------------  TX Power Cap --------------- */
#define TXPWRCAP_MAX_NUM_CORES 8
#define TXPWRCAP_MAX_NUM_ANTENNAS (TXPWRCAP_MAX_NUM_CORES * 2)

#define TXPWRCAP_MAX_NUM_CORES_V3 4
#define TXPWRCAP_MAX_NUM_ANTENNAS_V3 (TXPWRCAP_MAX_NUM_CORES_V3 * 2)

#define TXPWRCAP_NUM_SUBBANDS 5
#define TXPWRCAP_MAX_NUM_SUBGRPS 10

/* IOVAR txcapconfig enum's */
#define TXPWRCAPCONFIG_WCI2 0u
#define TXPWRCAPCONFIG_HOST 1u
#define TXPWRCAPCONFIG_WCI2_AND_HOST 2u
#define TXPWRCAPCONFIG_NONE 0xFFu

/* IOVAR txcapstate enum's */
#define TXPWRCAPSTATE_LOW_CAP 0
#define TXPWRCAPSTATE_HIGH_CAP 1
#define TXPWRCAPSTATE_HOST_LOW_WCI2_LOW_CAP 0
#define TXPWRCAPSTATE_HOST_LOW_WCI2_HIGH_CAP 1
#define TXPWRCAPSTATE_HOST_HIGH_WCI2_LOW_CAP 2
#define TXPWRCAPSTATE_HOST_HIGH_WCI2_HIGH_CAP 3

/* IOVAR txcapconfig and txcapstate structure is shared: SET and GET */
#define TXPWRCAPCTL_VERSION 2
#define TXPWRCAPCTL_VERSION_3 3

typedef struct wl_txpwrcap_ctl {
    uint8 version;
    uint8 ctl[TXPWRCAP_NUM_SUBBANDS];
} wl_txpwrcap_ctl_t;

typedef struct wl_txpwrcap_ctl_v3 {
    uint8 version;
    uint8 ctl[TXPWRCAP_MAX_NUM_SUBGRPS];
} wl_txpwrcap_ctl_v3_t;

/* IOVAR txcapdump structure: GET only */
#define TXPWRCAP_DUMP_VERSION 2
typedef struct wl_txpwrcap_dump {
    uint8 version;
    uint8 pad0;
    uint8 current_country[2];
    uint32 current_channel;
    uint8 config[TXPWRCAP_NUM_SUBBANDS];
    uint8 state[TXPWRCAP_NUM_SUBBANDS];
    uint8 high_cap_state_enabled;
    uint8 wci2_cell_status_last;
    uint8 download_present;
    uint8 num_subbands;
    uint8 num_antennas;
    uint8 num_antennas_per_core[TXPWRCAP_MAX_NUM_CORES];
    uint8 num_cc_groups;
    uint8 current_country_cc_group_info_index;
    int8 low_cap[TXPWRCAP_MAX_NUM_ANTENNAS * TXPWRCAP_NUM_SUBBANDS];
    int8 high_cap[TXPWRCAP_MAX_NUM_ANTENNAS * TXPWRCAP_NUM_SUBBANDS];
    uint8 PAD[3];
} wl_txpwrcap_dump_t;

typedef struct wl_txpwrcap_dump_v3 {
    uint8 version;
    uint8 pad0;
    uint8 current_country[2];
    uint32 current_channel;
    uint8 config[TXPWRCAP_NUM_SUBBANDS];
    uint8 state[TXPWRCAP_NUM_SUBBANDS];
    uint8 high_cap_state_enabled;
    uint8 wci2_cell_status_last;
    uint8 download_present;
    uint8 num_subbands;
    uint8 num_antennas;
    uint8 num_antennas_per_core[TXPWRCAP_MAX_NUM_CORES];
    uint8 num_cc_groups;
    uint8 current_country_cc_group_info_index;
    uint8 cap_states_per_cc_group;
    int8 host_low_wci2_low_cap[TXPWRCAP_MAX_NUM_ANTENNAS *
                               TXPWRCAP_NUM_SUBBANDS];
    int8 host_low_wci2_high_cap[TXPWRCAP_MAX_NUM_ANTENNAS *
                                TXPWRCAP_NUM_SUBBANDS];
    int8 host_high_wci2_low_cap[TXPWRCAP_MAX_NUM_ANTENNAS *
                                TXPWRCAP_NUM_SUBBANDS];
    int8 host_high_wci2_high_cap[TXPWRCAP_MAX_NUM_ANTENNAS *
                                 TXPWRCAP_NUM_SUBBANDS];
    uint8 PAD[2];
} wl_txpwrcap_dump_v3_t;

/*
 * Capability flag for wl_txpwrcap_tbl_v2_t and wl_txpwrcap_t
 * The index into pwrs will be:  0: onbody-cck, 1: onbody-ofdm, 2:offbody-cck,
 * 3:offbody-ofdm
 *
 * For 5G power in SDB case as well as for non-SDB case, the value of flag will
 * be: CAP_ONOFF_BODY The index into pwrs will be:  0: onbody, 1: offbody-ofdm
 */

#define CAP_ONOFF_BODY (0x1) /* on/off body only */
#define CAP_CCK_OFDM (0x2)   /* cck/ofdm capability only */
#define CAP_LTE_CELL (0x4)  /* cell on/off capability; required for iOS builds \
                             */
#define CAP_HEAD_BODY (0x8) /* head/body capability */
#define CAP_2G_DEPON_5G                                                        \
    (0x10)                   /* 2G pwr caps depend on other slice 5G subband */
#define CAP_SISO_MIMO (0x20) /* Siso/Mimo Separate Power Caps */
#define CAP_ANT_TX (0x40) /* Separate Power Caps based on cell ant tx value */
#define CAP_LTE_PQBIT (0x100u) /* QPBit is enabled */
#define CAP_ONOFF_BODY_CCK_OFDM (CAP_ONOFF_BODY | CAP_CCK_OFDM)
#define CAP_TXPWR_ALL                                                          \
    (CAP_ONOFF_BODY | CAP_CCK_OFDM | CAP_LTE_CELL | CAP_SISO_MIMO |            \
     CAP_HEAD_BODY | CAP_ANT_TX)

#define TXHDR_SEC_MAX 5u /* Deprecated.  Kept till removed in all branches */
#define TXPWRCAP_MAX_STATES 4u
#define TXPWRCAP_MAX_STATES_V3 10u
#define TXPWRCAP_CCKOFDM_ONOFFBODY_MAX_STATES 4u
#define TXPWRCAP_ONOFFBODY_MAX_STATES 2u
#define TXPWRCAP_ONOFFCELL_MAX_STATES 2u

#define TXHDR_SEC_NONSDB_MAIN_2G 0
#define TXHDR_SEC_NONSDB_MAIN_5G 1
#define TXHDR_SEC_NONSDB_AUX_2G 2
#define TXHDR_SEC_NONSDB_AUX_5G 3
#define TXHDR_SEC_SDB_MAIN_2G 4
#define TXHDR_SEC_SDB_MAIN_5G 5
#define TXHDR_SEC_SDB_AUX_2G 6
#define TXHDR_SEC_SDB_AUX_5G 7
#define TXHDR_MAX_SECTION 8

#define WL_TXPWRCAP_MAX_SLICES 2
#define WL_TXPWRCAPDUMP_VER 4

#define WL_TXPWRCAP_VERSION_2 2
#define WL_TXPWRCAP_VERSION_3 3

typedef struct wl_txpwrcap {
    uint8 capability;
    uint8 num_cap_states;
    uint8 section; /* Index from above,eg. TXHDR_SEC_NONSDB */
    int8 pwrs[][TXPWRCAP_NUM_SUBBANDS][TXPWRCAP_MAX_NUM_CORES];
} wl_txpwrcap_t;

typedef struct {
    uint8 capability;
    uint8 num_cap_states;
    uint8 num_subgrps;
    uint8 section; /* Index from above,eg. TXHDR_SEC_NONSDB */
    int8 pwrs[][TXPWRCAP_MAX_NUM_SUBGRPS][TXPWRCAP_MAX_NUM_ANTENNAS_V3];
} wl_txpwrcap_v2_t;

#define TXPWRCAP_DUMP_VERSION_4 4u
#define TXPWRCAP_DUMP_VERSION_5 5u
#define TXPWRCAP_DUMP_VERSION_6 6u

typedef struct wl_txpwrcap_dump_v4 {
    uint8 version;
    uint8 num_pwrcap;
    uint8 current_country[2];
    uint32 current_channel;
    uint8 download_present;
    uint8 num_cores;     /* number cores on slice */
    uint8 num_cc_groups; /* number cc groups */
    uint8 current_country_cc_group_info_index;
    /* first power cap always exist
     * On main,-non-sdb follows by sdb2g and then sdb5g
     * On aux slice - aux2g then aux5g.
     */
    wl_txpwrcap_t pwrcap; /* first power cap */
} wl_txpwrcap_dump_v4_t;

typedef struct wl_txpwrcap_dump_v5 {
    uint8 version;
    uint8 num_pwrcap;
    uint8 current_country[2];
    uint8 current_channel;
    uint8 high_cap_state_enabled;
    uint8 reserved[2];
    uint8 download_present;
    uint8 num_ants;      /* number antenna slice */
    uint8 num_cc_groups; /* number cc groups */
    uint8 current_country_cc_group_info_index;
    uint8 ant_tx;      /* current value of ant_tx */
    uint8 cell_status; /* current value of cell status */
    int8 pwrcap[];     /* variable size power caps (wl_txpwrcap_v2_t) */
} wl_txpwrcap_dump_v5_t;

typedef struct wl_txpwrcap_dump_v6 {
    uint8 version;
    uint8 num_pwrcap;
    uint8 current_country[2];
    uint8 current_channel;
    uint8 high_cap_state_enabled;
    uint8 reserved[2];
    uint8 download_present;
    uint8 num_ants;      /* number antenna slice */
    uint8 num_cc_groups; /* number cc groups */
    uint8 current_country_cc_group_info_index;
    uint8 ant_tx;                         /* current value of ant_tx */
    uint8 cell_status;                    /* current value of cell status */
    uint16 capability[TXHDR_MAX_SECTION]; /* capabilities */
    int8 pwrcap[]; /* variable size power caps (wl_txpwrcap_v2_t) */
} wl_txpwrcap_dump_v6_t;

#define TXCAPINFO_VERSION_1 1
typedef struct wl_txpwrcap_ccgrp_info {
    uint8 num_cc;
    char cc_list[1][2]; /* 2 letters for each country. At least one country */
} wl_txpwrcap_ccgrp_info_t;

typedef struct {
    uint16 version;
    uint16 length; /* length in bytes */
    uint8 num_ccgrp;
    /* followed by one or more wl_txpwrcap_ccgrp_info_t */
    wl_txpwrcap_ccgrp_info_t ccgrp_data[1];
} wl_txpwrcap_info_t;

typedef struct wl_txpwrcap_tbl {
    uint8 num_antennas_per_core[TXPWRCAP_MAX_NUM_CORES];
    /* Stores values for valid antennas */
    int8 pwrcap_cell_on[TXPWRCAP_MAX_NUM_ANTENNAS];  /* qdBm units */
    int8 pwrcap_cell_off[TXPWRCAP_MAX_NUM_ANTENNAS]; /* qdBm units */
} wl_txpwrcap_tbl_t;

typedef struct wl_txpwrcap_tbl_v2 {
    uint8 version;
    uint8 length;     /* size of entire structure, including the pwrs */
    uint8 capability; /* capability bitmap */
    uint8 num_cores;  /* number of cores i.e. entries in each cap state row */
    /*
     * pwrs array has TXPWRCAP_MAX_STATES rows - one for each cap state.
     * Each row has up to TXPWRCAP_MAX_NUM_CORES entries - one for each core.
     */
    uint8 pwrs[][TXPWRCAP_MAX_NUM_CORES]; /* qdBm units */
} wl_txpwrcap_tbl_v2_t;

typedef struct wl_txpwrcap_tbl_v3 {
    uint8 version;
    uint8 length;     /* size of entire structure, including the pwrs */
    uint8 capability; /* capability bitmap */
    uint8 num_cores;  /* number of cores */
    uint8 num_antennas_per_core[TXPWRCAP_MAX_NUM_CORES_V3];
    /*
     * pwrs array has TXPWRCAP_MAX_STATES rows - one for each cap state.
     * Each row has up to TXPWRCAP_MAX_NUM_ANTENNAS entries - for each antenna.
     * Included in the rows of powers are rows for fail safe.
     */
    int8 pwrs[][TXPWRCAP_MAX_NUM_ANTENNAS_V3]; /* qdBm units */
} wl_txpwrcap_tbl_v3_t;

/* ##### Ecounters section ##### */
#define ECOUNTERS_VERSION_1 1

/* Input structure for ecounters IOVAR */
typedef struct ecounters_config_request {
    uint16 version;    /* config version */
    uint16 set;        /* Set where data will go. */
    uint16 size;       /* Size of the set. */
    uint16 timeout;    /* timeout in seconds. */
    uint16 num_events; /* Number of events to report. */
    uint16 ntypes;     /* Number of entries in type array. */
    uint16 type[1];    /* Statistics Types (tags) to retrieve. */
} ecounters_config_request_t;

#define ECOUNTERS_EVENTMSGS_VERSION_1 1
#define ECOUNTERS_TRIGGER_CONFIG_VERSION_1 1

#define ECOUNTERS_EVENTMSGS_EXT_MASK_OFFSET                                    \
    OFFSETOF(ecounters_eventmsgs_ext_t, mask[0])

#define ECOUNTERS_TRIG_CONFIG_TYPE_OFFSET                                      \
    OFFSETOF(ecounters_trigger_config_t, type[0])

typedef struct ecounters_eventmsgs_ext {
    uint8 version;
    uint8 len;
    uint8 mask[1];
} ecounters_eventmsgs_ext_t;

typedef struct ecounters_trigger_config {
    uint16 version; /* version */
    uint16 set;     /* set where data should go */
    uint16 rsvd;    /* reserved */
    uint16 pad;     /* pad/reserved */
    uint16 ntypes;  /* number of types/tags */
    uint16 type[1]; /* list of types */
} ecounters_trigger_config_t;

#define ECOUNTERS_TRIGGER_REASON_VERSION_1 1
typedef enum {
    /* Triggered due to timer based ecounters */
    ECOUNTERS_TRIGGER_REASON_TIMER = 0,
    /* Triggered due to event based configuration */
    ECOUNTERS_TRIGGER_REASON_EVENTS = 1,
    ECOUNTERS_TRIGGER_REASON_D2H_EVENTS = 2,
    ECOUNTERS_TRIGGER_REASON_H2D_EVENTS = 3,
    ECOUNTERS_TRIGGER_REASON_USER_EVENTS = 4,
    ECOUNTERS_TRIGGER_REASON_MAX = 5
} ecounters_trigger_reasons_list_t;

typedef struct ecounters_trigger_reason {
    uint16 version;          /* version */
    uint16 trigger_reason;   /* trigger reason */
    uint32 sub_reason_code;  /* sub reason code */
    uint32 trigger_time_now; /* time in ms  at trigger */
    uint32 host_ref_time;    /* host ref time */
} ecounters_trigger_reason_t;

#define WL_LQM_VERSION_1 1

/* For wl_lqm_t flags field */
#define WL_LQM_CURRENT_BSS_VALID 0x1
#define WL_LQM_TARGET_BSS_VALID 0x2

#define WL_PERIODIC_COMPACT_CNTRS_VER_1 (1)
#define WL_PERIODIC_TXBF_CNTRS_VER_1 (1)
typedef struct {
    uint16 version;
    uint16 pad;
    /* taken from wl_wlc_cnt_t */
    uint32 txfail;
    /* taken from wl_cnt_ge40mcst_v1_t */
    uint32 txallfrm;  /**< total number of frames sent, incl. Data, ACK, RTS,
                       * CTS,  Control Management (includes retransmissions)
                       */
    uint32 txrtsfrm;  /**< number of RTS sent out by the MAC */
    uint32 txctsfrm;  /**< number of CTS sent out by the MAC */
    uint32 txback;    /**< blockack txcnt */
    uint32 txucast;   /**< number of unicast tx expecting response other than
                         cts/cwcts */
    uint32 txnoack;   /**< dot11ACKFailureCount */
    uint32 txframe;   /**< tx data frames */
    uint32 txretrans; /**< tx mac retransmits */
    uint32 txpspoll;  /**< Number of TX PS-poll */

    uint32 rxrsptmout;  /**< number of response timeouts for transmitted frames
                         * expecting a response
                         */
    uint32 txrtsfail;   /**< number of rts transmission failure that reach retry
                           limit */
    uint32 rxstrt;      /**< number of received frames with a good PLCP */
    uint32 rxbadplcp;   /**< number of parity check of the PLCP header failed */
    uint32 rxcrsglitch; /**< PHY was able to correlate the preamble but not the
                           header */
    uint32
        rxnodelim; /**< number of no valid delimiter detected by ampdu parser */
    uint32 bphy_badplcp;     /**< number of bad PLCP reception on BPHY rate */
    uint32 bphy_rxcrsglitch; /**< PHY count of bphy glitches */
    uint32 rxbadfcs; /**< number of frames for which the CRC check failed in the
                        MAC */
    uint32 rxf0ovfl; /**< number of receive fifo 0 overflows */
    uint32 rxf1ovfl; /**< number of receive fifo 0 overflows */
    uint32 rxhlovfl; /**< number of length / header fifo overflows */
    uint32 rxrtsucast;    /**< number of unicast RTS addressed to the MAC (good
                             FCS) */
    uint32 rxctsucast;    /**< number of unicast CTS addressed to the MAC (good
                             FCS) */
    uint32 rxackucast;    /**< number of ucast ACKS received (good FCS) */
    uint32 rxback;        /**< blockack rxcnt */
    uint32 rxbeaconmbss;  /**< beacons received from member of BSS */
    uint32 rxdtucastmbss; /**< number of received DATA frames with good FCS and
                             matching RA */
    uint32 rxbeaconobss;  /**< beacons received from other BSS */
    uint32 rxdtucastobss; /**< number of unicast frames addressed to the MAC
                           * from other BSS (WDS FRAME)
                           */
    uint32 rxdtocast;     /**< number of received DATA frames (good FCS and no
                             matching RA) */
    uint32 rxrtsocast;  /**< number of received RTS not addressed to the MAC */
    uint32 rxctsocast;  /**< number of received CTS not addressed to the MAC */
    uint32 rxdtmcast;   /**< number of RX Data multicast frames received by the
                           MAC */
    uint32 rxmpdu_mu;   /**< Number of MU MPDUs received */
    uint32 rxtoolate;   /**< receive too late */
    uint32 rxframe;     /**< rx data frames */
    uint32 lqcm_report; /**<  lqcm metric tx/rx idx */
    uint32 tx_toss_cnt; /* number of tx packets tossed */
    uint32 rx_toss_cnt; /* number of rx packets tossed	*/
    uint32 last_tx_toss_rsn; /* reason because of which last tx pkt tossed */
    uint32 last_rx_toss_rsn; /* reason because of which last rx pkt tossed */
    uint32 txbcnfrm;         /**< beacons transmitted */
} wl_periodic_compact_cntrs_v1_t;

#define WL_PERIODIC_COMPACT_CNTRS_VER_2 (2)
typedef struct {
    uint16 version;
    uint16 pad;
    /* taken from wl_wlc_cnt_t */
    uint32 txfail;
    /* taken from wl_cnt_ge40mcst_v1_t */
    uint32 txallfrm;  /**< total number of frames sent, incl. Data, ACK, RTS,
                       * CTS,  Control Management (includes retransmissions)
                       */
    uint32 txrtsfrm;  /**< number of RTS sent out by the MAC */
    uint32 txctsfrm;  /**< number of CTS sent out by the MAC */
    uint32 txback;    /**< blockack txcnt */
    uint32 txucast;   /**< number of unicast tx expecting response other than
                         cts/cwcts */
    uint32 txnoack;   /**< dot11ACKFailureCount */
    uint32 txframe;   /**< tx data frames */
    uint32 txretrans; /**< tx mac retransmits */
    uint32 txpspoll;  /**< Number of TX PS-poll */

    uint32 rxrsptmout;  /**< number of response timeouts for transmitted frames
                         * expecting a response
                         */
    uint32 txrtsfail;   /**< number of rts transmission failure that reach retry
                           limit */
    uint32 rxstrt;      /**< number of received frames with a good PLCP */
    uint32 rxbadplcp;   /**< number of parity check of the PLCP header failed */
    uint32 rxcrsglitch; /**< PHY was able to correlate the preamble but not the
                           header */
    uint32
        rxnodelim; /**< number of no valid delimiter detected by ampdu parser */
    uint32 bphy_badplcp;     /**< number of bad PLCP reception on BPHY rate */
    uint32 bphy_rxcrsglitch; /**< PHY count of bphy glitches */
    uint32 rxbadfcs; /**< number of frames for which the CRC check failed in the
                        MAC */
    uint32 rxf0ovfl; /**< number of receive fifo 0 overflows */
    uint32 rxf1ovfl; /**< number of receive fifo 0 overflows */
    uint32 rxhlovfl; /**< number of length / header fifo overflows */
    uint32 rxrtsucast;    /**< number of unicast RTS addressed to the MAC (good
                             FCS) */
    uint32 rxctsucast;    /**< number of unicast CTS addressed to the MAC (good
                             FCS) */
    uint32 rxackucast;    /**< number of ucast ACKS received (good FCS) */
    uint32 rxback;        /**< blockack rxcnt */
    uint32 rxbeaconmbss;  /**< beacons received from member of BSS */
    uint32 rxdtucastmbss; /**< number of received DATA frames with good FCS and
                             matching RA */
    uint32 rxbeaconobss;  /**< beacons received from other BSS */
    uint32 rxdtucastobss; /**< number of unicast frames addressed to the MAC
                           * from other BSS (WDS FRAME)
                           */
    uint32 rxdtocast;     /**< number of received DATA frames (good FCS and no
                             matching RA) */
    uint32 rxrtsocast;  /**< number of received RTS not addressed to the MAC */
    uint32 rxctsocast;  /**< number of received CTS not addressed to the MAC */
    uint32 rxdtmcast;   /**< number of RX Data multicast frames received by the
                           MAC */
    uint32 rxmpdu_mu;   /**< Number of MU MPDUs received */
    uint32 rxtoolate;   /**< receive too late */
    uint32 rxframe;     /**< rx data frames */
    uint32 lqcm_report; /**<  lqcm metric tx/rx idx */
    uint32 tx_toss_cnt; /* number of tx packets tossed */
    uint32 rx_toss_cnt; /* number of rx packets tossed	*/
    uint32 last_tx_toss_rsn; /* reason because of which last tx pkt tossed */
    uint32 last_rx_toss_rsn; /* reason because of which last rx pkt tossed */
    uint32 txbcnfrm;         /**< beacons transmitted */
    uint32 rxretry;          /* Number of rx packets received after retry */
    uint32 rxdup; /* Number of dump packet. Indicates whether peer is receiving
                     ack */
    uint32 chswitch_cnt; /* Number of channel switches */
    uint32 pm_dur;       /* Total sleep time in PM, msecs */
} wl_periodic_compact_cntrs_v2_t;

#define WL_PERIODIC_COMPACT_CNTRS_VER_3 (3)
typedef struct {
    uint16 version;
    uint16 pad;
    /* taken from wl_wlc_cnt_t */
    uint32 txfail;
    /* taken from wl_cnt_ge40mcst_v1_t */
    uint32 txallfrm;  /**< total number of frames sent, incl. Data, ACK, RTS,
                       * CTS,  Control Management (includes retransmissions)
                       */
    uint32 txrtsfrm;  /**< number of RTS sent out by the MAC */
    uint32 txctsfrm;  /**< number of CTS sent out by the MAC */
    uint32 txback;    /**< blockack txcnt */
    uint32 txucast;   /**< number of unicast tx expecting response other than
                         cts/cwcts */
    uint32 txnoack;   /**< dot11ACKFailureCount */
    uint32 txframe;   /**< tx data frames */
    uint32 txretrans; /**< tx mac retransmits */
    uint32 txpspoll;  /**< Number of TX PS-poll */

    uint32 rxrsptmout;  /**< number of response timeouts for transmitted frames
                         * expecting a response
                         */
    uint32 txrtsfail;   /**< number of rts transmission failure that reach retry
                           limit */
    uint32 rxstrt;      /**< number of received frames with a good PLCP */
    uint32 rxbadplcp;   /**< number of parity check of the PLCP header failed */
    uint32 rxcrsglitch; /**< PHY was able to correlate the preamble but not the
                           header */
    uint32
        rxnodelim; /**< number of no valid delimiter detected by ampdu parser */
    uint32 bphy_badplcp;     /**< number of bad PLCP reception on BPHY rate */
    uint32 bphy_rxcrsglitch; /**< PHY count of bphy glitches */
    uint32 rxbadfcs; /**< number of frames for which the CRC check failed in the
                        MAC */
    uint32 rxf0ovfl; /**< number of receive fifo 0 overflows */
    uint32 rxf1ovfl; /**< number of receive fifo 0 overflows */
    uint32 rxhlovfl; /**< number of length / header fifo overflows */
    uint32 rxrtsucast;    /**< number of unicast RTS addressed to the MAC (good
                             FCS) */
    uint32 rxctsucast;    /**< number of unicast CTS addressed to the MAC (good
                             FCS) */
    uint32 rxackucast;    /**< number of ucast ACKS received (good FCS) */
    uint32 rxback;        /**< blockack rxcnt */
    uint32 rxbeaconmbss;  /**< beacons received from member of BSS */
    uint32 rxdtucastmbss; /**< number of received DATA frames with good FCS and
                             matching RA */
    uint32 rxbeaconobss;  /**< beacons received from other BSS */
    uint32 rxdtucastobss; /**< number of unicast frames addressed to the MAC
                           * from other BSS (WDS FRAME)
                           */
    uint32 rxdtocast;     /**< number of received DATA frames (good FCS and no
                             matching RA) */
    uint32 rxrtsocast;  /**< number of received RTS not addressed to the MAC */
    uint32 rxctsocast;  /**< number of received CTS not addressed to the MAC */
    uint32 rxdtmcast;   /**< number of RX Data multicast frames received by the
                           MAC */
    uint32 rxmpdu_mu;   /**< Number of MU MPDUs received */
    uint32 rxtoolate;   /**< receive too late */
    uint32 rxframe;     /**< rx data frames */
    uint32 lqcm_report; /**<  lqcm metric tx/rx idx */
    uint32 tx_toss_cnt; /* number of tx packets tossed */
    uint32 rx_toss_cnt; /* number of rx packets tossed	*/
    uint32 last_tx_toss_rsn; /* reason because of which last tx pkt tossed */
    uint32 last_rx_toss_rsn; /* reason because of which last rx pkt tossed */
    uint32 txbcnfrm;         /**< beacons transmitted */
    uint32 rxretry;          /* Number of rx packets received after retry */
    uint32 rxdup; /* Number of dump packet. Indicates whether peer is receiving
                     ack */
    uint32 chswitch_cnt; /* Number of channel switches */
    uint32 pm_dur;       /* Total sleep time in PM, msecs */
    uint32 rxholes;      /* Count of missed packets from peer */
} wl_periodic_compact_cntrs_v3_t;

#define WL_PERIODIC_COMPACT_HE_CNTRS_VER_1 (1)
typedef struct {
    uint16 version;
    uint16 len;
    uint32 he_rxtrig_rand;
    uint32 he_colormiss_cnt;
    uint32 he_txmtid_back;
    uint32 he_rxmtid_back;
    uint32 he_rxmsta_back;
    uint32 he_rxtrig_basic;
    uint32 he_rxtrig_murts;
    uint32 he_rxtrig_bsrp;
    uint32 he_rxdlmu;
    uint32 he_physu_rx;
    uint32 he_txtbppdu;
} wl_compact_he_cnt_wlc_v1_t;

#define WL_PERIODIC_COMPACT_HE_CNTRS_VER_2 (2)
typedef struct {
    uint16 version;
    uint16 len;
    uint32 he_rxtrig_myaid;
    uint32 he_rxtrig_rand;
    uint32 he_colormiss_cnt;
    uint32 he_txmampdu;
    uint32 he_txmtid_back;
    uint32 he_rxmtid_back;
    uint32 he_rxmsta_back;
    uint32 he_txfrag;
    uint32 he_rxdefrag;
    uint32 he_txtrig;
    uint32 he_rxtrig_basic;
    uint32 he_rxtrig_murts;
    uint32 he_rxtrig_bsrp;
    uint32 he_rxhemuppdu_cnt;
    uint32 he_physu_rx;
    uint32 he_phyru_rx;
    uint32 he_txtbppdu;
    uint32 he_null_tbppdu;
    uint32 he_rxhesuppdu_cnt;
    uint32 he_rxhesureppdu_cnt;
    uint32 he_null_zero_agg;
    uint32 he_null_bsrp_rsp;
    uint32 he_null_fifo_empty;
} wl_compact_he_cnt_wlc_v2_t;

/* for future versions of this data structure, can consider wl_txbf_ecounters_t
 * which contains the full list of txbf dump counters
 */
typedef struct {
    uint16 version;
    uint16 coreup;
    uint32 txndpa;
    uint32 txndp;
    uint32 rxsf;
    uint32 txbfm;
    uint32 rxndpa_u;
    uint32 rxndpa_m;
    uint32 bferpt;
    uint32 rxbfpoll;
    uint32 txsf;
} wl_periodic_txbf_cntrs_v1_t;

typedef struct {
    struct ether_addr BSSID;
    chanspec_t chanspec;
    int32 rssi;
    int32 snr;
} wl_rx_signal_metric_t;

typedef struct {
    uint8 version;
    uint8 flags;
    uint16 pad;
    int32 noise_level; /* current noise level */
    wl_rx_signal_metric_t current_bss;
    wl_rx_signal_metric_t target_bss;
} wl_lqm_t;

#define WL_PERIODIC_IF_STATE_VER_1 (1)
typedef struct wl_if_state_compact {
    uint8 version;
    uint8 assoc_state;
    uint8 antenna_count; /**< number of valid antenna rssi */
    int8 noise_level;    /**< noise right after tx (in dBm) */
    int8 snr;            /* current noise level */
    int8 rssi_sum;       /**< summed rssi across all antennas */
    uint16 pad16;
    int8 rssi_ant[WL_RSSI_ANT_MAX]; /**< rssi per antenna */
    struct ether_addr BSSID;
    chanspec_t chanspec;
} wl_if_state_compact_t;

#define WL_EVENT_STATISTICS_VER_1 (1)
/* Event based statistics ecounters */
typedef struct {
    uint16 version;
    uint16 pad;
    struct ether_addr BSSID; /* BSSID of the BSS */
    uint32 txdeauthivalclass;
} wl_event_based_statistics_v1_t;

#define WL_EVENT_STATISTICS_VER_2 (2)
/* Event based statistics ecounters */
typedef struct {
    uint16 version;
    uint16 pad;
    struct ether_addr BSSID; /* BSSID of the BSS */
    uint32 txdeauthivalclass;
    /* addition for v2 */
    int32 timestamp;               /* last deauth time */
    struct ether_addr last_deauth; /* wrong deauth MAC */
    uint16 misdeauth;              /* wrong deauth count every 1sec */
    int16 cur_rssi;                /* current bss rssi */
    int16 deauth_rssi;             /* deauth pkt rssi */
} wl_event_based_statistics_v2_t;

#define WL_EVENT_STATISTICS_VER_3 (3)
/* Event based statistics ecounters */
typedef struct {
    uint16 version;
    uint16 pad;
    struct ether_addr BSSID; /* BSSID of the BSS */
    uint16 PAD;
    uint32 txdeauthivalclass;
    /* addition for v2 */
    int32 timestamp;               /* last deauth time */
    struct ether_addr last_deauth; /* wrong deauth MAC */
    uint16 misdeauth;              /* wrong deauth count every 1sec */
    int16 cur_rssi;                /* current bss rssi */
    int16 deauth_rssi;             /* deauth pkt rssi */
    /* addition for v3 (roam statistics) */
    uint32 initial_assoc_time;
    uint32 prev_roam_time;
    uint32 last_roam_event_type;
    uint32 last_roam_event_status;
    uint32 last_roam_event_reason;
    uint16 roam_success_cnt;
    uint16 roam_fail_cnt;
    uint16 roam_attempt_cnt;
    uint16 max_roam_target_cnt;
    uint16 min_roam_target_cnt;
    uint16 max_cached_ch_cnt;
    uint16 min_cached_ch_cnt;
    uint16 partial_roam_scan_cnt;
    uint16 full_roam_scan_cnt;
    uint16 most_roam_reason;
    uint16 most_roam_reason_cnt;
} wl_event_based_statistics_v3_t;

#define WL_EVENT_STATISTICS_VER_4 (4u)
/* Event based statistics ecounters */
typedef struct {
    uint16 version;
    uint16 pad;
    struct ether_addr BSSID; /* BSSID of the BSS */
    uint16 PAD;
    uint32 txdeauthivalclass;
    /* addition for v2 */
    int32 timestamp;               /* last deauth time */
    struct ether_addr last_deauth; /* wrong deauth MAC */
    uint16 misdeauth;              /* wrong deauth count every 1sec */
    int16 cur_rssi;                /* current bss rssi */
    int16 deauth_rssi;             /* deauth pkt rssi */
} wl_event_based_statistics_v4_t;

/* ##### Ecounters v2 section ##### */

#define ECOUNTERS_VERSION_2 2

/* Enumeration of various ecounters request types. This namespace is different
 * from global reportable stats namespace.
 */
enum { WL_ECOUNTERS_XTLV_REPORT_REQ = 1 };

/* Input structure for ecounters IOVAR */
typedef struct ecounters_config_request_v2 {
    uint16 version;          /* config version */
    uint16 len;              /* Length of this struct including variable len */
    uint16 logset;           /* Set where data will go. */
    uint16 reporting_period; /* reporting_period */
    uint16 num_reports;      /* Number of timer expirations to report on */
    uint8 pad[2];            /* Reserved for future use */
    uint8 ecounters_xtlvs[]; /* Statistics Types (tags) to retrieve. */
} ecounters_config_request_v2_t;

#define ECOUNTERS_STATS_TYPES_FLAG_SLICE 0x1
#define ECOUNTERS_STATS_TYPES_FLAG_IFACE 0x2
#define ECOUNTERS_STATS_TYPES_FLAG_GLOBAL 0x4
#define ECOUNTERS_STATS_TYPES_DEFAULT 0x8

/* Slice mask bits */
#define ECOUNTERS_STATS_TYPES_SLICE_MASK_SLICE0 0x1
#define ECOUNTERS_STATS_TYPES_SLICE_MASK_SLICE1 0x2

typedef struct ecounters_stats_types_report_req {
    /* flags: bit0 = slice, bit1 = iface, bit2 = global,
     * rest reserved
     */
    uint16 flags;
    uint16 if_index;         /* host interface index */
    uint16 slice_mask;       /* bit0 = slice0, bit1=slice1, rest reserved */
    uint8 pad[2];            /* padding */
    uint8 stats_types_req[]; /* XTLVs of requested types */
} ecounters_stats_types_report_req_t;

/* ##### Ecounters_Eventmsgs v2 section ##### */

#define ECOUNTERS_EVENTMSGS_VERSION_2 2

typedef struct event_ecounters_config_request_v2 {
    uint16 version;          /* config version */
    uint16 len;              /* Length of this struct including variable len */
    uint16 logset;           /* Set where data will go. */
    uint16 event_id;         /* Event id for which this config is meant for */
    uint8 flags;             /* Config flags */
    uint8 pad[3];            /* Reserved for future use */
    uint8 ecounters_xtlvs[]; /* Statistics Types (tags) to retrieve. */
} event_ecounters_config_request_v2_t;

#define EVENT_ECOUNTERS_FLAGS_ADD                                              \
    (1 << 0) /* Add configuration for the event_id if set */
#define EVENT_ECOUNTERS_FLAGS_DEL                                              \
    (1 << 1) /* Delete configuration for event_id if set */
#define EVENT_ECOUNTERS_FLAGS_ANYIF                                            \
    (1 << 2) /* Interface filtering disable / off bit */
#define EVENT_ECOUNTERS_FLAGS_BE                                               \
    (1 << 3) /* If cleared report stats of                                     \
              * one event log buffer                                           \
              */
#define EVENT_ECOUNTERS_FLAGS_DEL_ALL                                          \
    (1 << 4) /* Delete all the configurations of                               \
              * event ecounters if set                                         \
              */

#define EVENT_ECOUNTERS_FLAGS_BUS                                              \
    (1 << 5) /* Add configuration for the bus events */
#define EVENT_ECOUNTERS_FLAGS_BUS_H2D                                          \
    (1 << 6) /* Add configuration for the bus direction                        \
              * 0 - D2H and 1 - H2D                                            \
              */

#define EVENT_ECOUNTERS_FLAGS_DELAYED_FLUSH                                    \
    (1 << 7) /* Flush only when half of the total size                         \
              * of blocks gets filled. This is to avoid                        \
              * many interrupts to host.                                       \
              */
#define EVENT_ECOUNTERS_FLAGS_USER                                             \
    (1 << 6) /* Add configuration for user defined events                      \
              * Reuse the same flag as H2D                                     \
              */

/* Ecounters suspend resume */
#define ECOUNTERS_SUSPEND_VERSION_V1 1
/* To be used in populating suspend_mask and suspend_bitmap */
#define ECOUNTERS_SUSPEND_TIMER (1 << ECOUNTERS_TRIGGER_REASON_TIMER)
#define ECOUNTERS_SUSPEND_EVENTS (1 << ECOUNTERS_TRIGGER_REASON_EVENTS)

typedef struct ecounters_suspend {
    uint16 version;
    uint16 len;
    uint32 suspend_bitmap; /* type of ecounter reporting to be suspended */
    uint32 suspend_mask;   /* type of ecounter reporting to be suspended */
} ecounters_suspend_t;

/* -------------- dynamic BTCOEX --------------- */
#define DCTL_TROWS 2     /**< currently practical number of rows  */
#define DCTL_TROWS_MAX 4 /**<  2 extra rows RFU */
/* DYNCTL profile flags */
#define DCTL_FLAGS_DISABLED 0       /**< default value: all features disabled */
#define DCTL_FLAGS_DYNCTL (1 << 0)  /**<  1 - enabled, 0 - legacy only */
#define DCTL_FLAGS_DESENSE (1 << 1) /**< auto desense is enabled */
#define DCTL_FLAGS_MSWITCH (1 << 2) /**< mode switching is enabled */
#define DCTL_FLAGS_PWRCTRL (1 << 3) /**< Tx power control is enabled */
/* for now AGG on/off is handled separately  */
#define DCTL_FLAGS_TX_AGG_OFF (1 << 4) /* allow TX agg Off */
#define DCTL_FLAGS_RX_AGG_OFF (1 << 5) /* allow RX agg Off */
/* used for dry run testing only */
#define DCTL_FLAGS_DRYRUN (1 << 7) /**< Enables dynctl dry run mode  */
#define IS_DYNCTL_ON(prof) ((prof->flags & DCTL_FLAGS_DYNCTL) != 0)
#define IS_DESENSE_ON(prof) ((prof->flags & DCTL_FLAGS_DESENSE) != 0)
#define IS_MSWITCH_ON(prof) ((prof->flags & DCTL_FLAGS_MSWITCH) != 0)
#define IS_PWRCTRL_ON(prof) ((prof->flags & DCTL_FLAGS_PWRCTRL) != 0)
/* desense level currently in use */
#define DESENSE_OFF 0
#define DFLT_DESENSE_MID 12
#define DFLT_DESENSE_HIGH 2

/**
 * dynctl data points(a set of btpwr & wlrssi thresholds)
 * for mode & desense switching
 */
typedef struct btc_thr_data {
    int8 mode;    /**< used by desense sw */
    int8 bt_pwr;  /**< BT tx power threshold */
    int8 bt_rssi; /**< BT rssi threshold */
    /* wl rssi range when mode or desense change may be needed */
    int8 wl_rssi_high;
    int8 wl_rssi_low;
} btc_thr_data_t;

/* dynctl. profile data structure  */
#define DCTL_PROFILE_VER 0x01
#include <packed_section_start.h>
typedef BWL_PRE_PACKED_STRUCT struct dctl_prof {
    uint8 version; /**< dynctl profile version */
    /* dynctl profile flags bit:0 - dynctl On, bit:1 dsns On, bit:2 mode sw On,
     */
    uint8 flags; /**< bit[6:3] reserved, bit7 - Dryrun (sim) - On */
    /**  wl desense levels to apply */
    uint8 dflt_dsns_level;
    uint8 low_dsns_level;
    uint8 mid_dsns_level;
    uint8 high_dsns_level;
    /** mode switching hysteresis in dBm */
    int8 msw_btrssi_hyster;
    /** default btcoex mode */
    uint8 default_btc_mode;
    /** num of active rows in mode switching table */
    uint8 msw_rows;
    /** num of rows in desense table */
    uint8 dsns_rows;
    /** dynctl mode switching data table  */
    btc_thr_data_t msw_data[DCTL_TROWS_MAX];
    /** dynctl desense switching data table */
    btc_thr_data_t dsns_data[DCTL_TROWS_MAX];
} BWL_POST_PACKED_STRUCT dctl_prof_t;
#include <packed_section_end.h>

/**  dynctl status info */
#include <packed_section_start.h>
typedef BWL_PRE_PACKED_STRUCT struct dynctl_status {
    uint8 sim_on;      /**< true if simulation is On */
    uint16 bt_pwr_shm; /**< BT per/task power as read from ucode  */
    int8 bt_pwr;       /**< BT pwr extracted & converted to dBm */
    int8 bt_rssi;      /**< BT rssi in dBm */
    int8 wl_rssi;      /**< last wl rssi reading used by btcoex */
    uint8 dsns_level;  /**< current desense level */
    uint8 btc_mode;    /**< current btcoex mode */
    /* add more status items if needed,  pad to 4 BB if needed */
} BWL_POST_PACKED_STRUCT dynctl_status_t;
#include <packed_section_end.h>

/**  dynctl simulation (dryrun data) */
#include <packed_section_start.h>
typedef BWL_PRE_PACKED_STRUCT struct dynctl_sim {
    uint8 sim_on; /**< simulation mode on/off */
    int8 btpwr;   /**< simulated BT power in dBm */
    int8 btrssi;  /**< simulated BT rssi in dBm */
    int8 wlrssi;  /**< simulated WL rssi in dBm */
} BWL_POST_PACKED_STRUCT dynctl_sim_t;
/* no default structure packing */
#include <packed_section_end.h>

/** PTK key maintained per SCB */
#define RSN_TEMP_ENCR_KEY_LEN 16
typedef struct wpa_ptk {
    uint8 kck[RSN_KCK_LENGTH]; /**< EAPOL-Key Key Confirmation Key (KCK) */
    uint8 kek[RSN_KEK_LENGTH]; /**< EAPOL-Key Key Encryption Key (KEK) */
    uint8 tk1[RSN_TEMP_ENCR_KEY_LEN]; /**< Temporal Key 1 (TK1) */
    uint8 tk2[RSN_TEMP_ENCR_KEY_LEN]; /**< Temporal Key 2 (TK2) */
} wpa_ptk_t;

/** GTK key maintained per SCB */
typedef struct wpa_gtk {
    uint32 idx;
    uint32 key_len;
    uint8 key[DOT11_MAX_KEY_SIZE];
} wpa_gtk_t;

/** FBT Auth Response Data structure */
typedef struct wlc_fbt_auth_resp {
    uint8 macaddr[ETHER_ADDR_LEN]; /**< station mac address */
    uint8 pad[2];
    uint8 pmk_r1_name[WPA2_PMKID_LEN];
    wpa_ptk_t ptk; /**< pairwise key */
    wpa_gtk_t gtk; /**< group key */
    uint32 ie_len;
    uint8 status; /**< Status of parsing FBT authentication
                   Request in application
                   */
    uint8 ies[1]; /**< IEs contains MDIE, RSNIE,
                    FBTIE (ANonce, SNonce,R0KH-ID, R1KH-ID)
                    */
} wlc_fbt_auth_resp_t;

/** FBT Action Response frame */
typedef struct wlc_fbt_action_resp {
    uint16 version;                /**< structure version */
    uint16 length;                 /**< length of structure */
    uint8 macaddr[ETHER_ADDR_LEN]; /**< station mac address */
    uint8 data_len;                /**< len of ie from Category */
    uint8 data[1]; /**< data contains category, action, sta address, target ap,
                        status code,fbt response frame body
                        */
} wlc_fbt_action_resp_t;

#define MACDBG_PMAC_ADDR_INPUT_MAXNUM 16
#define MACDBG_PMAC_OBJ_TYPE_LEN 8

typedef struct _wl_macdbg_pmac_param_t {
    char type[MACDBG_PMAC_OBJ_TYPE_LEN];
    uint8 step;
    uint8 w_en;
    uint16 num;
    uint32 bitmap;
    uint8 addr_raw;
    uint8 addr_num;
    uint16 addr[MACDBG_PMAC_ADDR_INPUT_MAXNUM];
    uint8 pad0[2];
    uint32 w_val;
} wl_macdbg_pmac_param_t;

/** IOVAR 'svmp_sampcol' parameter. Used to set and read SVMP_SAMPLE_COLLECT's
 * setting */
typedef struct wl_svmp_sampcol_param {
    uint32 version; /* version */
    uint8 enable;
    uint8 trigger_mode;      /* SVMP_SAMPCOL_TRIGGER */
    uint8 trigger_mode_s[2]; /* SVMP_SAMPCOL_PKTPROC */
    uint8 data_samplerate;   /* SVMP_SAMPCOL_SAMPLERATE */
    uint8 data_sel_phy1;     /* SVMP_SAMPCOL_PHY1MUX */
    uint8 data_sel_rx1;      /* SVMP_SAMPCOL_RX1MUX without iqCompOut */
    uint8 data_sel_dualcap;  /* SVMP_SAMPCOL_RX1MUX */
    uint8 pack_mode;         /* SVMP_SAMPCOL_PACK */
    uint8 pack_order;
    uint8 pack_cfix_fmt;
    uint8 pack_1core_sel;
    uint16 waitcnt;
    uint16 caplen;
    uint32 buff_addr_start; /* in word-size (2-bytes) */
    uint32
        buff_addr_end; /* note: Tcl in byte-size, HW in vector-size (8-bytes) */
    uint8 int2vasip;
    uint8 PAD;
    uint16 status;
} wl_svmp_sampcol_t;

#define WL_SVMP_SAMPCOL_PARAMS_VERSION 1

enum {
    SVMP_SAMPCOL_TRIGGER_PKTPROC_TRANSITION = 0,
    SVMP_SAMPCOL_TRIGGER_FORCE_IMMEDIATE,
    SVMP_SAMPCOL_TRIGGER_RADAR_DET
};

enum {
    SVMP_SAMPCOL_PHY1MUX_GPIOOUT = 0,
    SVMP_SAMPCOL_PHY1MUX_FFT,
    SVMP_SAMPCOL_PHY1MUX_DBGHX,
    SVMP_SAMPCOL_PHY1MUX_RX1MUX
};

enum {
    SVMP_SAMPCOL_RX1MUX_FARROWOUT = 4,
    SVMP_SAMPCOL_RX1MUX_IQCOMPOUT,
    SVMP_SAMPCOL_RX1MUX_DCFILTEROUT,
    SVMP_SAMPCOL_RX1MUX_RXFILTEROUT,
    SVMP_SAMPCOL_RX1MUX_ACIFILTEROUT
};

enum { SVMP_SAMPCOL_SAMPLERATE_1XBW = 0, SVMP_SAMPCOL_SAMPLERATE_2XBW };

enum {
    SVMP_SAMPCOL_PACK_DUALCAP = 0,
    SVMP_SAMPCOL_PACK_4CORE,
    SVMP_SAMPCOL_PACK_2CORE,
    SVMP_SAMPCOL_PACK_1CORE
};

enum {
    SVMP_SAMPCOL_PKTPROC_RESET = 0,
    SVMP_SAMPCOL_PKTPROC_CARRIER_SEARCH,
    SVMP_SAMPCOL_PKTPROC_WAIT_FOR_NB_PWR,
    SVMP_SAMPCOL_PKTPROC_WAIT_FOR_W1_PWR,
    SVMP_SAMPCOL_PKTPROC_WAIT_FOR_W2_PWR,
    SVMP_SAMPCOL_PKTPROC_OFDM_PHY,
    SVMP_SAMPCOL_PKTPROC_TIMING_SEARCH,
    SVMP_SAMPCOL_PKTPROC_CHAN_EST_1,
    SVMP_SAMPCOL_PKTPROC_LEG_SIG_DEC,
    SVMP_SAMPCOL_PKTPROC_SIG_DECODE_1,
    SVMP_SAMPCOL_PKTPROC_SIG_DECODE_2,
    SVMP_SAMPCOL_PKTPROC_HT_AGC,
    SVMP_SAMPCOL_PKTPROC_CHAN_EST_2,
    SVMP_SAMPCOL_PKTPROC_PAY_DECODE,
    SVMP_SAMPCOL_PKTPROC_DSSS_CCK_PHY,
    SVMP_SAMPCOL_PKTPROC_WAIT_ENERGY_DROP,
    SVMP_SAMPCOL_PKTPROC_WAIT_NCLKS,
    SVMP_SAMPCOL_PKTPROC_PAY_DEC_EXT,
    SVMP_SAMPCOL_PKTPROC_SIG_FAIL_DELAY,
    SVMP_SAMPCOL_PKTPROC_RIFS_SEARCH,
    SVMP_SAMPCOL_PKTPROC_BOARD_SWITCH_DIV_SEARCH,
    SVMP_SAMPCOL_PKTPROC_DSSS_CCK_BOARD_SWITCH_DIV_SEARCH,
    SVMP_SAMPCOL_PKTPROC_CHAN_EST_3,
    SVMP_SAMPCOL_PKTPROC_CHAN_EST_4,
    SVMP_SAMPCOL_PKTPROC_FINE_TIMING_SEARCH,
    SVMP_SAMPCOL_PKTPROC_SET_CLIP_GAIN,
    SVMP_SAMPCOL_PKTPROC_NAP,
    SVMP_SAMPCOL_PKTPROC_VHT_SIGA_DEC,
    SVMP_SAMPCOL_PKTPROC_VHT_SIGB_DEC,
    SVMP_SAMPCOL_PKTPROC_PKT_ABORT,
    SVMP_SAMPCOL_PKTPROC_DCCAL
};

/** IOVAR 'svmp_mem' parameter. Used to read/clear svmp memory */
typedef struct svmp_mem {
    uint32 addr; /**< offset to read svmp memory from vasip base address */
    uint16 len;  /**< length in count of uint16's */
    uint16 val;  /**< set the range of addr/len with a value */
} svmp_mem_t;

/** IOVAR 'mu_rate' parameter. read/set mu rate for upto four users */
#define MU_RATE_CFG_VERSION 1
typedef struct mu_rate {
    uint16 version;  /**< version of the structure as defined by
                        MU_RATE_CFG_VERSION */
    uint16 length;   /**< length of entire structure */
    uint8 auto_rate; /**< enable/disable auto rate */
    uint8 PAD;
    uint16 rate_user[4]; /**< rate per each of four users, set to -1 for no
                            change */
} mu_rate_t;

/** IOVAR 'mu_group' parameter. Used to set and read MU group recommendation
 * setting */
#define WL_MU_GROUP_AUTO_COMMAND -1
#define WL_MU_GROUP_PARAMS_VERSION 3
#define WL_MU_GROUP_METHOD_NAMELEN 64
#define WL_MU_GROUP_NGROUP_MAX 15
#define WL_MU_GROUP_NUSER_MAX 4
#define WL_MU_GROUP_METHOD_MIN 0
#define WL_MU_GROUP_NUMBER_AUTO_MIN 1
#define WL_MU_GROUP_NUMBER_AUTO_MAX 15
#define WL_MU_GROUP_NUMBER_FORCED_MAX 8
#define WL_MU_GROUP_METHOD_OLD 0
#define WL_MU_GROUP_MODE_AUTO 0
#define WL_MU_GROUP_MODE_FORCED 1
#define WL_MU_GROUP_FORCED_1GROUP 1
#define WL_MU_GROUP_ENTRY_EMPTY -1
typedef struct mu_group {
    uint32 version;         /* version */
    int16 forced;           /* forced group recommendation */
    int16 forced_group_mcs; /* forced group with mcs */
    int16 forced_group_num; /* forced group number */
    int16 group_option[WL_MU_GROUP_NGROUP_MAX][WL_MU_GROUP_NUSER_MAX];
    /* set mode for forced grouping and read mode for auto grouping */
    int16 group_GID[WL_MU_GROUP_NGROUP_MAX];
    int16 group_method;   /* methof for VASIP group recommendation */
    int16 group_number;   /* requested number for VASIP group recommendation */
    int16 auto_group_num; /* exact number from VASIP group recommendation */
    int8 group_method_name[WL_MU_GROUP_METHOD_NAMELEN];
    uint8 PAD[2];
} mu_group_t;

typedef struct mupkteng_sta {
    struct ether_addr ea;
    uint8 PAD[2];
    int32 nrxchain;
    int32 idx;
} mupkteng_sta_t;

typedef struct mupkteng_client {
    int32 rspec;
    int32 idx;
    int32 flen;
    int32 nframes;
} mupkteng_client_t;

typedef struct mupkteng_tx {
    mupkteng_client_t client[8];
    int32 nclients;
    int32 ntx;
} mupkteng_tx_t;

/*
 * MU Packet engine interface.
 * The following two definitions will go into
 * wlioctl_defs.h
 * when wl utility changes are merged to EAGLE TOB & Trunk
 */

#define WL_MUPKTENG_PER_TX_START 0x10
#define WL_MUPKTENG_PER_TX_STOP 0x20

/** IOVAR 'mu_policy' parameter. Used to configure MU admission control policies
 */
#define WL_MU_POLICY_PARAMS_VERSION 1
#define WL_MU_POLICY_SCHED_DEFAULT 60
#define WL_MU_POLICY_DISABLED 0
#define WL_MU_POLICY_ENABLED 1
#define WL_MU_POLICY_NRX_MIN 1
#define WL_MU_POLICY_NRX_MAX 2
typedef struct mu_policy {
    uint16 version;
    uint16 length;
    uint32 sched_timer;
    uint32 pfmon;
    uint32 pfmon_gpos;
    uint32 samebw;
    uint32 nrx;
    uint32 max_muclients;
} mu_policy_t;

#define WL_NAN_BAND_STR_SIZE 5 /* sizeof ("auto") */

/** Definitions of different NAN Bands */
/* do not change the order */
enum { NAN_BAND_B = 0, NAN_BAND_A, NAN_BAND_AUTO, NAN_BAND_INVALID = 0xFF };

/* ifdef WL11ULB */
/* ULB Mode configured via "ulb_mode" IOVAR */
enum {
    ULB_MODE_DISABLED = 0,
    ULB_MODE_STD_ALONE_MODE = 1, /* Standalone ULB Mode */
    ULB_MODE_DYN_MODE = 2,       /* Dynamic ULB Mode */
    /* Add all other enums before this */
    MAX_SUPP_ULB_MODES
};

/* ULB BWs configured via "ulb_bw" IOVAR during Standalone Mode Only.
 * Values of this enumeration are also used to specify 'Current Operational
 * Bandwidth' and 'Primary Operational Bandwidth' sub-fields in 'ULB Operations'
 * field (used in 'ULB Operations' Attribute or 'ULB Mode Switch' Attribute)
 */
typedef enum {
    ULB_BW_DISABLED = 0,
    ULB_BW_10MHZ = 1,  /* Standalone ULB BW in 10 MHz BW */
    ULB_BW_5MHZ = 2,   /* Standalone ULB BW in 5 MHz BW */
    ULB_BW_2P5MHZ = 3, /* Standalone ULB BW in 2.5 MHz BW */
    /* Add all other enums before this */
    MAX_SUPP_ULB_BW
} ulb_bw_type_t;
/* endif WL11ULB */

#define WL_MESH_IOCTL_VERSION 1
#define MESH_IOC_BUFSZ 512 /* sufficient ioc buff size for mesh */

/* container for mesh iovtls & events */
typedef struct wl_mesh_ioc {
    uint16 version; /* interface command or event version */
    uint16 id;      /* mesh ioctl cmd  ID  */
    uint16 len;     /* total length of all tlv records in data[]  */
    uint16 pad;     /* pad to be 32 bit aligment */
    uint8 data[];   /* var len payload of bcm_xtlv_t type */
} wl_mesh_ioc_t;

enum wl_mesh_cmds {
    WL_MESH_CMD_ENABLE = 1,
    WL_MESH_CMD_JOIN = 2,
    WL_MESH_CMD_PEER_STATUS = 3,
    WL_MESH_CMD_ADD_ROUTE = 4,
    WL_MESH_CMD_DEL_ROUTE = 5,
    WL_MESH_CMD_ADD_FILTER = 6,
    WL_MESH_CMD_ENAB_AL_METRIC = 7
};

enum wl_mesh_cmd_xtlv_id {
    WL_MESH_XTLV_ENABLE = 1,
    WL_MESH_XTLV_JOIN = 2,
    WL_MESH_XTLV_STATUS = 3,
    WL_MESH_XTLV_ADD_ROUTE = 4,
    WL_MESH_XTLV_DEL_ROUTE = 5,
    WL_MESH_XTLV_ADD_FILTER = 6,
    WL_MESH_XTLV_ENAB_AIRLINK = 7
};
/* endif WLMESH */

/* Fast BSS Transition parameter configuration */
#define FBT_PARAM_CURRENT_VERSION 0

typedef struct _wl_fbt_params {
    uint16 version; /* version of the structure
                     * as defined by FBT_PARAM_CURRENT_VERSION
                     */
    uint16 length;  /* length of the entire structure */

    uint16 param_type;    /* type of parameter defined below */
    uint16 param_len;     /* length of the param_value */
    uint8 param_value[1]; /* variable length */
} wl_fbt_params_t;

#define WL_FBT_PARAM_TYPE_RSNIE 0
#define WL_FBT_PARAM_TYPE_FTIE 0x1
#define WL_FBT_PARAM_TYPE_SNONCE 0x2
#define WL_FBT_PARAM_TYPE_MDE 0x3
#define WL_FBT_PARAM_TYPE_PMK_R0_NAME 0x4
#define WL_FBT_PARAM_TYPE_R0_KHID 0x5
#define WL_FBT_PARAM_TYPE_R1_KHID 0x6
#define WL_FBT_PARAM_TYPE_FIRST_INVALID 0x7

/* Assoc Mgr commands for fine control of assoc */
#define WL_ASSOC_MGR_CURRENT_VERSION 0x0

typedef struct {
    uint16 version; /* version of the structure as
                     * defined by WL_ASSOC_MGR_CURRENT_VERSION
                     */
    uint16 length;  /* length of the entire structure */

    uint16 cmd;
    uint16 params;
} wl_assoc_mgr_cmd_t;

#define WL_ASSOC_MGR_CMD_PAUSE_ON_EVT 0 /* have assoc pause on certain events  \
                                         */
#define WL_ASSOC_MGR_CMD_ABORT_ASSOC 1

#define WL_ASSOC_MGR_PARAMS_EVENT_NONE                                         \
    0 /* use this to resume as well as clear */
#define WL_ASSOC_MGR_PARAMS_PAUSE_EVENT_AUTH_RESP 1

#define WL_WINVER_STRUCT_VER_1 (1)

typedef struct wl_winver {
    /* Version and length of this structure. Length includes all fields in
     * wl_winver_t */
    uint16 struct_version;
    uint16 struct_length;

    /* Windows operating system version info (Microsoft provided) */
    struct {
        uint32 major_ver;
        uint32 minor_ver;
        uint32 build;
    } os_runtime;

    /* NDIS runtime version (Microsoft provided) */
    struct {
        uint16 major_ver;
        uint16 minor_ver;
    } ndis_runtime;

    /* NDIS Driver version (Broadcom provided) */
    struct {
        uint16 major_ver;
        uint16 minor_ver;
    } ndis_driver;

    /* WDI Upper Edge (UE) Driver version (Microsoft provided) */
    struct {
        uint8 major_ver;
        uint8 minor_ver;
        uint8 suffix;
    } wdi_ue;

    /* WDI Lower Edge (LE) Driver version (Broadcom provided) */
    struct {
        uint8 major_ver;
        uint8 minor_ver;
        uint8 suffix;
    } wdi_le;
    uint8 PAD[2];
} wl_winver_t;

/* defined(WLRCC) || defined(ROAM_CHANNEL_CACHE) */
#define MAX_ROAM_CHANNEL 20
typedef struct {
    int32 n;
    chanspec_t channels[MAX_ROAM_CHANNEL];
} wl_roam_channel_list_t;
/* endif RCC || ROAM_CHANNEL_CACHE */

/* values for IOV_MFP arg */
enum { WL_MFP_NONE = 0, WL_MFP_CAPABLE, WL_MFP_REQUIRED };

typedef enum {
    CHANSW_UNKNOWN = 0, /* channel switch due to unknown reason */
    CHANSW_SCAN = 1,    /* channel switch due to scan */
    CHANSW_PHYCAL = 2,  /* channel switch due to phy calibration */
    CHANSW_INIT = 3,    /* channel set at WLC up time */
    CHANSW_ASSOC = 4,   /* channel switch due to association */
    CHANSW_ROAM = 5,    /* channel switch due to roam */
    CHANSW_MCHAN = 6,   /* channel switch triggered by mchan module */
    CHANSW_IOVAR = 7,   /* channel switch due to IOVAR */
    CHANSW_CSA_DFS =
        8, /* channel switch due to chan switch  announcement from AP */
    CHANSW_APCS = 9, /* Channel switch from AP channel select module */
    CHANSW_FBT =
        11, /* Channel switch from FBT module for action frame response */
    CHANSW_UPDBW = 12, /* channel switch at update bandwidth */
    CHANSW_ULB = 13,   /* channel switch at ULB */
    CHANSW_LAST = 14   /* last channel switch reason */
} chansw_reason_t;

/*
 * WOWL unassociated mode power svae pattern.
 */
typedef struct wowl_radio_duty_cycle {
    uint16 wake_interval;
    uint16 sleep_interval;
} wowl_radio_duty_cycle_t;

typedef struct nd_ra_ol_limits {
    uint16 version; /* version of the iovar buffer */
    uint16 type;    /* type of data provided */
    uint16 length;  /* length of the entire structure */
    uint16 pad1;    /* pad union to 4 byte boundary */
    union {
        struct {
            uint16 min_time; /* seconds, min time for RA offload hold */
            uint16 lifetime_percent;
            /* percent, lifetime percentage for offload hold time */
        } lifetime_relative;
        struct {
            uint16 hold_time; /* seconds, RA offload hold time */
            uint16 pad2;      /* unused */
        } fixed;
    } limits;
} nd_ra_ol_limits_t;

#define ND_RA_OL_LIMITS_VER 1

/* nd_ra_ol_limits sub-types */
#define ND_RA_OL_LIMITS_REL_TYPE 0   /* relative, percent of RA lifetime */
#define ND_RA_OL_LIMITS_FIXED_TYPE 1 /* fixed time */

/* buffer lengths for the different nd_ra_ol_limits types */
#define ND_RA_OL_LIMITS_REL_TYPE_LEN 12
#define ND_RA_OL_LIMITS_FIXED_TYPE_LEN 10

/*
 * Temperature Throttling control mode
 */
typedef struct wl_temp_control {
    uint8 enable;
    uint8 PAD;
    uint16 control_bit;
} wl_temp_control_t;

/* SensorHub Interworking mode */

#define SHUB_CONTROL_VERSION 1
#define SHUB_CONTROL_LEN 12

typedef struct {
    uint16 verison;
    uint16 length;
    uint16 cmd;
    uint16 op_mode;
    uint16 interval;
    uint16 enable;
} shub_control_t;

/* WLC_MAJOR_VER <= 5 */
/* Data structures for non-TLV format */

/* Data structures for rsdb caps */
/*
 * The flags field of the rsdb_caps_response is designed to be
 * a Bit Mask. As of now only Bit 0 is used as mentioned below.
 */

/* Bit-0 in flags is used to indicate if the cores can operate synchronously
 * i.e either as 2x2 MIMO or 2(1x1 SISO). This is true only for 4349 variants
 * 0 - device can operate only in rsdb mode (eg: 4364)
 * 1 - device can operate in both rsdb and mimo (eg : 4359 variants)
 */

#define WL_RSDB_CAPS_VER 2
#define SYNCHRONOUS_OPERATION_TRUE (1 << 0)
#define WL_RSDB_CAPS_FIXED_LEN OFFSETOF(rsdb_caps_response_t, num_chains)

typedef struct rsdb_caps_response {
    uint8 ver;           /* Version */
    uint8 len;           /* length of this structure excluding ver and len */
    uint8 rsdb;          /* TRUE for rsdb chip */
    uint8 num_of_cores;  /* no of d11 cores */
    uint16 flags;        /* Flags to indicate various capabilities */
    uint8 num_chains[1]; /* Tx/Rx chains for each core */
} rsdb_caps_response_t;

/* Data structures for rsdb bands */

#define WL_RSDB_BANDS_VER 2
#define WL_RSDB_BANDS_FIXED_LEN OFFSETOF(rsdb_bands_t, band)

typedef struct rsdb_bands {
    uint8 ver;
    uint8 len;
    uint16 num_cores; /* num of D11 cores */
    int16 band[1];    /* The band operating on each of the d11 cores */
} rsdb_bands_t;

/* rsdb config */

#define WL_RSDB_CONFIG_VER 3
#define ALLOW_SIB_PARALLEL_SCAN (1 << 0)
#define MAX_BANDS 2

#define WL_RSDB_CONFIG_LEN sizeof(rsdb_config_t)

typedef uint8 rsdb_opmode_t;
typedef uint32 rsdb_flags_t;

typedef enum rsdb_modes {
    WLC_SDB_MODE_NOSDB_MAIN =
        1, /* 2X2 or MIMO mode (applicable only for 4355) */
    WLC_SDB_MODE_NOSDB_AUX = 2,
    WLC_SDB_MODE_SDB_MAIN =
        3, /* This is RSDB mode(default) applicable only for 4364 */
    WLC_SDB_MODE_SDB_AUX = 4,
    WLC_SDB_MODE_SDB_AUTO = 5, /* Same as WLC_RSDB_MODE_RSDB(1+1) mode above */
} rsdb_modes_t;

typedef struct rsdb_config {
    uint8 ver;
    uint8 len;
    uint16 reserved;
    rsdb_opmode_t non_infra_mode;
    rsdb_opmode_t infra_mode[MAX_BANDS];
    rsdb_flags_t flags[MAX_BANDS];
    rsdb_opmode_t
        current_mode; /* Valid only in GET, returns the current mode */
    uint8 pad[3];
} rsdb_config_t;

/* WLC_MAJOR_VER > =5 */
/* TLV definitions and data structures for rsdb subcmds */

enum wl_rsdb_cmd_ids {
    /* RSDB ioctls */
    WL_RSDB_CMD_VER = 0,
    WL_RSDB_CMD_CAPS = 1,
    WL_RSDB_CMD_BANDS = 2,
    WL_RSDB_CMD_CONFIG = 3,
    /* Add before this !! */
    WL_RSDB_CMD_LAST
};
#define WL_RSDB_IOV_VERSION 0x1

typedef struct rsdb_caps_response_v1 {
    uint8 rsdb;         /* TRUE for rsdb chip */
    uint8 num_of_cores; /* no of d11 cores */
    uint16 flags;       /* Flags to indicate various capabilities */
    uint8 num_chains[MAX_NUM_D11CORES]; /* Tx/Rx chains for each core */
    uint8 band_cap[MAX_NUM_D11CORES];   /* band cap bitmask per slice */
} rsdb_caps_response_v1_t;

typedef struct rsdb_bands_v1 {
    uint8 num_cores;             /* num of D11 cores */
    uint8 pad;                   /* padding bytes for 4 byte alignment */
    int8 band[MAX_NUM_D11CORES]; /* The band operating on each of the d11 cores
                                  */
} rsdb_bands_v1_t;

typedef struct rsdb_config_xtlv {
    rsdb_opmode_t reserved1; /* Non_infra mode is no more applicable */
    rsdb_opmode_t infra_mode[MAX_BANDS]; /* Target mode for Infra association */
    uint8 pad;                           /* pad bytes for 4 byte alignment */
    rsdb_flags_t flags[MAX_BANDS];
    rsdb_opmode_t current_mode; /* GET only; has current mode of operation */
    uint8 pad1[3];
} rsdb_config_xtlv_t;

/* Definitions for slot_bss chanseq iovar */
#define WL_SLOT_BSS_VERSION 1

/* critical slots max size */
#define WL_SLOTTED_BSS_CS_BMP_CFG_MAX_SZ 128 /* arbitrary */

enum wl_slotted_bss_cmd_id {
    WL_SLOTTED_BSS_CMD_VER = 0,
    WL_SLOTTED_BSS_CMD_CHANSEQ = 1,
    WL_SLOTTED_BSS_CMD_CS_BMP = 2 /* critical slots bitmap */
};

typedef uint16 chan_seq_type_t;
enum chan_seq_type {
    CHAN_SEQ_TYPE_AWDL = 1,
    CHAN_SEQ_TYPE_SLICE = 2,
    CHAN_SEQ_TYPE_NAN = 3,  /* NAN avail XTLV */
    CHAN_SEQ_TYPE_NANHO = 4 /* NANHO channel schedule XTLV */
};

typedef uint8 sched_flag_t;
enum sched_flag {
    NO_SDB_SCHED = 0x1,
    SDB_TDM_SCHED = 0x2,
    SDB_SPLIT_BAND_SCHED = 0x4, /* default mode for 4357 */
    MAIN_ONLY = 0x8,
    AUX_ONLY = 0x10,
    SDB_DUAL_TIME = (MAIN_ONLY | AUX_ONLY),
    NO_SDB_MAIN_ONLY = (NO_SDB_SCHED | MAIN_ONLY), /* default mode for 4364 */
    SDB_TDM_SCHED_MAIN = (SDB_TDM_SCHED | MAIN_ONLY),
    SDB_TDM_SCHED_AUX = (SDB_TDM_SCHED | AUX_ONLY),
    SDB_TDM_SCHED_DUAL_TIME = (SDB_TDM_SCHED | SDB_DUAL_TIME),
    SDB_SPLIT_BAND_SCHED_DUAL_TIME = (SDB_SPLIT_BAND_SCHED | SDB_DUAL_TIME)
};

typedef struct chan_seq_tlv_data {
    uint32 flags;
    uint8 data[1];
} chan_seq_tlv_data_t;

typedef struct chan_seq_tlv {
    chan_seq_type_t type;
    uint16 len;
    chan_seq_tlv_data_t chanseq_data[1];
} chan_seq_tlv_t;

typedef struct sb_channel_sequence {
    sched_flag_t sched_flags; /* (sdb-tdm or sdb-sb or Dual-Time) */
    uint8 num_seq;            /* number of chan_seq_tlv following */
    uint16 pad;
    chan_seq_tlv_t seq[1];
} sb_channel_sequence_t;

typedef struct slice_chan_seq {
    uint8 slice_index; /* 0(Main) or 1 (Aux) */
    uint8 num_chanspecs;
    uint8 dur;
    uint8 pad;
    chanspec_t chanspecs[1];
} slice_chan_seq_t;

#define SLOT_BSS_SLICE_TYPE_DUR_MAX_RANGE 2u
#define SLOTTED_BSS_AGGR_EN (1 << 0)             /* Bitmap of mode */
#define SLOTTED_BSS_AGGR_LIMIT_DUR (1 << 1)      /* Jira 49554 */
#define SLOTTED_BSS_HE_1024_QAM_SUPPORT (1 << 2) /* MCS10-11 Support */

#define WL_SLICE_CHAN_SEQ_FIXED_LEN OFFSETOF(slice_chan_seq_t, chanspecs)
/* Definitions for slotted_bss stats */
#define SBSS_STATS_VERSION 1
#define SBSS_STATS_CURRENT_VERSION SBSS_STATS_VERSION

#define SBSS_MAX_CHAN_STATS 4

typedef struct sbss_core_stats {
    uint32 sb_slot_start;
    uint32 sb_slot_end;
    uint32 sb_slot_skip;
    uint32 mismatch_count;
} sbss_core_stats_t;

typedef struct sbss_chan_stats {
    chanspec_t chanspec;
    uint32 slot_start;
    uint32 slot_end;
    uint32 slot_skip;
} sbss_chan_stats_t;

typedef struct sbss_stats_v1 {
    uint16 version;
    uint16 length;
    sbss_core_stats_t corestats[MAX_NUM_D11CORES];
    sbss_chan_stats_t sbss_chanstats[MAX_NUM_D11CORES][SBSS_MAX_CHAN_STATS];
} sbss_stats_t;

/* slotted bss critical slots */
typedef struct wl_sbss_cs_bmp_s {
    uint8 bitmap_len;
    uint8 pad[3];
    uint8 bitmap[];
} wl_sbss_cs_bmp_t;

typedef struct sim_pm_params {
    uint32 enabled;
    uint16 cycle;
    uint16 up;
} sim_pm_params_t;

/* Digital napping status */
#define WL_NAP_STATUS_VERSION_1 1
typedef struct wl_nap_status_v1 {
    uint16 version;           /* structure version  */
    uint16 len;               /* length of returned data */
    uint16 fw_status;         /* bitmask of FW disable reasons */
    uint8 hw_status;          /* bitmask for actual HW state info */
    uint8 slice_index;        /* which slice this represents */
    uint32 total_disable_dur; /* total time (ms) disabled for fw_status */
} wl_nap_status_v1_t;

/* Bits for fw_status */
#define NAP_DISABLED_HOST 0x0001  /* Host has disabled through nap_enable */
#define NAP_DISABLED_RSSI 0x0002  /* Disabled because of nap_rssi_threshold */
#define NAP_DISABLED_SCAN 0x0004  /* Disabled because of scan */
#define NAP_DISABLED_ASSOC 0x0008 /* Disabled because of association */
#define NAP_DISABLED_LTE 0x0010   /* Disabled because of LTE */
#define NAP_DISABLED_ACI 0x0020   /* Disabled because of ACI mitigation */

/* Bits for hw_status */
#define NAP_HWCFG 0x01 /* State of NAP config bit in phy HW */
#define NAP_NOCLK 0x80 /* No clock to read HW (e.g. core down) */

/* ifdef WL_NATOE */
#define WL_NATOE_IOCTL_VERSION 1
#define WL_NATOE_IOC_BUFSZ 512 /* sufficient ioc buff size for natoe */
#define WL_NATOE_DBG_STATS_BUFSZ 2048
#define NATOE_FLAGS_ENAB_MASK 0x1
#define NATOE_FLAGS_ACTIVE_MASK 0x2
#define NATOE_FLAGS_PUBNW_MASK 0x4
#define NATOE_FLAGS_PVTNW_MASK 0x8
#define NATOE_FLAGS_ENAB_SHFT_MASK 0
#define NATOE_FLAGS_ACTIVE_SHFT_MASK 1
#define NATOE_FLAGS_PUBNW_SHFT_MASK 2
#define NATOE_FLAGS_PVTNW_SHFT_MASK 3
#define NATOE_FLAGS_PUB_NW_UP (1 << NATOE_FLAGS_PUBNW_SHFT_MASK)
#define NATOE_FLAGS_PVT_NW_UP (1 << NATOE_FLAGS_PVTNW_SHFT_MASK)

#define PCIE_FRWDPKT_STATS_VERSION 1

/* Module version is 1 for IGUANA */
#define WL_NATOE_MODULE_VER_1 1
/* Module version is 2 for Lemur */
#define WL_NATOE_MODULE_VER_2 2

/* WL_NATOE_CMD_MOD_VER */
typedef uint16 wl_natoe_ver_t;
/* config natoe STA and AP IP's structure */
typedef struct {
    uint32 sta_ip;
    uint32 sta_netmask;
    uint32 sta_router_ip;
    uint32 sta_dnsip;
    uint32 ap_ip;
    uint32 ap_netmask;
} wl_natoe_config_ips_t;

/* natoe ports config structure */
typedef struct {
    uint16 start_port_num;
    uint16 no_of_ports;
} wl_natoe_ports_config_t;

/* natoe ports exception info */
typedef struct {
    uint16 sta_port_num;
    uint16 dst_port_num; /* for SIP type protocol, dst_port_num info can be
                            ignored by FW */
    uint32 ip; /* for SIP ip is APcli_ip and for port clash it is dst_ip */
    uint8 entry_type; /* Create/Destroy */
    uint8 pad[3];
} wl_natoe_exception_port_t;

/* container for natoe ioctls & events */
typedef struct wl_natoe_ioc {
    uint16 version; /* interface command or event version */
    uint16 id;      /* natoe ioctl cmd  ID  */
    uint16 len;     /* total length of all tlv records in data[]  */
    uint16 pad;     /* pad to be 32 bit aligment */
    uint8 data[];   /* var len payload of bcm_xtlv_t type */
} wl_natoe_ioc_t;

typedef struct wl_natoe_pool_stats_v1 {
    /* For debug purposes */
    uint16 poolreorg_cnt;
    uint16 poolrevert_cnt;
    uint16 txfrag_state;
    uint16 rxfrag_state;
    uint16 txfrag_plen;
    uint16 rxfrag_plen;
    uint16 tx_pavail;
    uint16 rx_pavail;
    uint16 txmin_bkup_bufs;
    uint16 rxmin_bkup_bufs;
    uint16 pktpool_sbuf_alloc;
    uint16 pktpool_plen;
    uint16 pktpool_pavail;
    /* Peak shared buffer count in all iterations */
    uint16 sbuf_peak;
    /* Peak shared buffer count in current D3 iteration */
    uint16 sbuf_peak_cur;
} wl_natoe_pool_stats_v1_t;

typedef struct wl_natoe_arp_entry_v1 {
    struct ipv4_addr ip;
    struct ether_addr mac_addr;
    uint8 lifetime;
    uint8 flags;
} wl_natoe_arp_entry_v1_t;

typedef struct wl_natoe_dbg_arp_tbl_info_v1 {
    uint8 valid_arp_entries;
    uint8 PAD[3];
    wl_natoe_arp_entry_v1_t arp_ent[];
} wl_natoe_dbg_arp_tbl_info_v1_t;

typedef struct wl_natoe_skip_port_entry_v1 {
    struct ipv4_addr srcip;
    uint16 src_port;
    uint16 lifetime;
} wl_natoe_skip_port_entry_v1_t;

typedef struct wl_natoe_skip_port_info_v1 {
    uint8 valid_entries;
    uint8 PAD[3];
    wl_natoe_skip_port_entry_v1_t skip_port_ent[];
} wl_natoe_skip_port_info_v1_t;

typedef struct wl_natoe_dbg_stats_v1 {
    uint16 active_nat_entries;
    uint16 active_dns_entries;
    uint16 active_icmp_entries;
    uint16 valid_arp_entries;
    uint16 prev_nat_entries;
    uint16 prev_dns_entries;
    uint16 tcp_fast_reclaim_cnt;
    uint16 mcast_packets;
    uint16 bcast_packets;
    uint16 port_commands_rcvd;
    uint16 unsupported_prot;
    uint16 arp_req_sent;
    uint16 arp_rsp_rcvd;
    uint16 non_ether_frames;
    uint16 port_alloc_fail;
    uint16 srcip_tbl_full;
    uint16 dstip_tbl_full;
    uint16 nat_tbl_full;
    uint16 icmp_error_cnt;
    uint16 pkt_drops_resource;
    uint32 frwd_nat_pkt_cnt;
    uint32 reverse_nat_pkt_cnt;
    uint16 pub_nw_chspec;
    uint16 pvt_nw_chspec;
    uint8 pubnw_cfg_idx;
    uint8 pvtnw_cfg_idx;
    uint8 pubnw_cfg_ID;
    uint8 pvtnw_cfg_ID;
    uint16 natoe_flags;
} wl_natoe_dbg_stats_v1_t;

typedef struct wl_natoe_exception_port_inf_v1 {
    uint16 except_bmap_size;
    uint8 port_except_bmap[];
} wl_natoe_exception_port_inf_v1_t;

typedef struct wl_natoe_dstnat_entry_v1 {
    struct ipv4_addr clientip;
    struct ether_addr client_mac_addr;
    uint16 client_listenport;
    uint8 opcode;
} wl_natoe_dstnat_entry_v1_t;

typedef struct wl_pcie_frwd_stats_v1 {
    uint16 version;
    uint16 len;
    uint16 frwd_txfrag_q_cnt; /* no. of txfrags in frwd_txfrag_list */
    /* no. of outstanding lbufs in txpath on if0/ifx */
    uint16 tx_frwd_n_lb_if0;
    uint16 tx_frwd_n_lb_ifx;
    /* no. of outstanding lfrags in txpath on if0/ifx */
    uint16 tx_frwd_n_lf_if0;
    uint16 tx_frwd_n_lf_ifx;
    /* no. of pending frwd pkts dropped upon d3 entry */
    uint16 tx_frwd_d3_drop_cnt;
    /* Total no. of lbufs frwded in txpath on if0/ifx */
    uint32 tx_frwd_n_lb_if0_cnt;
    uint32 tx_frwd_n_lb_ifx_cnt;
    /* Total no. of lfrags frwded in txpath on if0/ifx */
    uint32 tx_frwd_n_lf_if0_cnt;
    uint32 tx_frwd_n_lf_ifx_cnt;
    uint32
        frwd_tx_drop_thr_cnt; /* no. of pkts dropped due to txfrag threshold */
    uint32 frwd_tx_drop_err_cnt; /* no. of pkts dropped due to txfrags not avail
                                    / errors */
} wl_pcie_frwd_stats_v1_t;

enum wl_natoe_cmds {
    WL_NATOE_CMD_MOD_VER = 0,
    WL_NATOE_CMD_ENABLE = 1,
    WL_NATOE_CMD_CONFIG_IPS = 2,
    WL_NATOE_CMD_CONFIG_PORTS = 3,
    WL_NATOE_CMD_DBG_STATS = 4,
    WL_NATOE_CMD_EXCEPTION_PORT = 5,
    WL_NATOE_CMD_SKIP_PORT = 6,
    WL_NATOE_CMD_TBL_CNT = 7,
    WL_NATOE_CMD_CONFIG_DSTNAT = 8,
    WL_NATOE_CMD_CTRL = 9
};

enum wl_natoe_cmd_xtlv_id {
    WL_NATOE_XTLV_MOD_VER = 0,
    WL_NATOE_XTLV_ENABLE = 1,
    WL_NATOE_XTLV_CONFIG_IPS = 2,
    WL_NATOE_XTLV_CONFIG_PORTS = 3,
    WL_NATOE_XTLV_DBG_STATS = 4,
    WL_NATOE_XTLV_EXCEPTION_PORT = 5,
    WL_NATOE_XTLV_SKIP_PORT = 6,
    WL_NATOE_XTLV_TBL_CNT = 7,
    WL_NATOE_XTLV_ARP_TBL = 8,
    WL_NATOE_XTLV_POOLREORG = 9,
    WL_NATOE_XTLV_CONFIG_DSTNAT = 10,
    WL_NATOE_XTLV_CTRL = 11
};

/* endif WL_NATOE */

enum wl_idauth_cmd_ids {
    WL_IDAUTH_CMD_CONFIG = 1,
    WL_IDAUTH_CMD_PEER_INFO = 2,
    WL_IDAUTH_CMD_COUNTERS = 3,
    WL_IDAUTH_CMD_LAST
};
enum wl_idauth_xtlv_id {
    WL_IDAUTH_XTLV_AUTH_ENAB = 0x1,
    WL_IDAUTH_XTLV_GTK_ROTATION = 0x2,
    WL_IDAUTH_XTLV_EAPOL_COUNT = 0x3,
    WL_IDAUTH_XTLV_EAPOL_INTRVL = 0x4,
    WL_IDAUTH_XTLV_BLKLIST_COUNT = 0x5,
    WL_IDAUTH_XTLV_BLKLIST_AGE = 0x6,
    WL_IDAUTH_XTLV_PEERS_INFO = 0x7,
    WL_IDAUTH_XTLV_COUNTERS = 0x8
};
enum wl_idauth_stats {
    WL_AUTH_PEER_STATE_AUTHORISED = 0x01,
    WL_AUTH_PEER_STATE_BLACKLISTED = 0x02,
    WL_AUTH_PEER_STATE_4WAY_HS_ONGOING = 0x03,
    WL_AUTH_PEER_STATE_LAST
};
typedef struct {
    uint16 state;                /* Peer State: Authorised or Blacklisted */
    struct ether_addr peer_addr; /* peer Address */
    uint32 blklist_end_time;     /* Time of blacklist end */
} auth_peer_t;
typedef struct wl_idauth_counters {
    uint32 auth_reqs;        /* No of auth req recvd */
    uint32 mic_fail;         /* No of mic fails */
    uint32 four_way_hs_fail; /* No of 4-way handshake fails */
} wl_idauth_counters_t;

#define WLC_UTRACE_LEN (1024u * 4u)     // default length
#define WLC_UTRACE_LEN_AUX (1024u * 3u) // reduced length to fit smaller AUX BM
#define WLC_UTRACE_LEN_SC                                                      \
    (1024u * 3u) // reduced length to fit smaller Scan core BM

#define WLC_UTRACE_READ_END 0
#define WLC_UTRACE_MORE_DATA 1

typedef struct wl_utrace_capture_args_v1 {
    uint32 length;
    uint32 flag;
} wl_utrace_capture_args_v1_t;

#define UTRACE_CAPTURE_VER_2 2
typedef struct wl_utrace_capture_args_v2 {
    /* structure control */
    uint16 version; /**< structure version */
    uint16 length;  /**< length of the response */
    uint32 flag;    /* Indicates if there is more data or not */
} wl_utrace_capture_args_v2_t;

/* Signal read end. */
#define WLC_REGVAL_READ_END 0
/* Signal more data pending. */
#define WLC_REGVAL_MORE_DATA 1
/* Internal read state. */
#define WLC_REGVAL_READ_CONTINUE 2

#define WLC_REGVAL_DUMP_PHYREG 0
#define WLC_REGVAL_DUMP_RADREG 1

#define PHYREGVAL_CAPTURE_BUFFER_LEN 2048

typedef struct wl_regval_capture_args {
    uint32 control_flag; /* Carries status information. */
} wl_regval_capture_args_t;

/* XTLV IDs for the Health Check "hc" iovar top level container */
enum {
    WL_HC_XTLV_ID_CAT_HC = 1,          /* category for HC as a whole */
    WL_HC_XTLV_ID_CAT_DATAPATH_TX = 2, /* Datapath Tx */
    WL_HC_XTLV_ID_CAT_DATAPATH_RX = 3, /* Datapath Rx */
    WL_HC_XTLV_ID_CAT_SCAN = 4,        /* Scan */
    WL_HC_XTLV_ID_CAT_EVENTMASK = 5,   /* Health Check event mask. */
};

/* Health Check: Common XTLV IDs for sub-elements in the top level container
 * Number starts at 0x8000 to be out of the way for category specific IDs.
 */
enum {
    WL_HC_XTLV_ID_ERR = 0x8000,    /* for sub-command  err return */
    WL_HC_XTLV_ID_IDLIST = 0x8001, /* container for uint16 IDs */
};

/* Health Check: Datapath TX IDs */
enum {
    WL_HC_TX_XTLV_ID_VAL_STALL_THRESHOLD = 1,   /* stall_threshold */
    WL_HC_TX_XTLV_ID_VAL_STALL_SAMPLE_SIZE = 2, /* stall_sample_size */
    WL_HC_TX_XTLV_ID_VAL_STALL_TIMEOUT = 3,     /* stall_timeout */
    WL_HC_TX_XTLV_ID_VAL_STALL_FORCE = 4,       /* stall_force */
    WL_HC_TX_XTLV_ID_VAL_STALL_EXCLUDE = 5,     /* stall_exclude */
    WL_HC_TX_XTLV_ID_VAL_FC_TIMEOUT = 6,        /* flow ctl timeout */
    WL_HC_TX_XTLV_ID_VAL_FC_FORCE = 7,          /* flow ctl force failure */
    WL_HC_TX_XTLV_ID_VAL_DELAY_TO_TRAP =
        8, /* delay threshold for forced trap */
    WL_HC_TX_XTLV_ID_VAL_DELAY_TO_RPT =
        9, /* delay threshold for event log report */
    WL_HC_TX_XTLV_ID_VAL_FAILURE_TO_RPT =
        10, /* threshold for consecutive TX failures */
};

/* Health Check: Datapath RX IDs */
enum {
    WL_HC_RX_XTLV_ID_VAL_DMA_STALL_TIMEOUT = 1, /* dma_stall_timeout */
    WL_HC_RX_XTLV_ID_VAL_DMA_STALL_FORCE = 2,   /* dma_stall test trigger */
    WL_HC_RX_XTLV_ID_VAL_STALL_THRESHOLD = 3,   /* stall_threshold */
    WL_HC_RX_XTLV_ID_VAL_STALL_SAMPLE_SIZE = 4, /* stall_sample_size */
    WL_HC_RX_XTLV_ID_VAL_STALL_FORCE = 5,       /* stall test trigger */
    WL_HC_RX_XTLV_ID_VAL_STALL_UC_DECRYPT_FAIL =
        6, /* trigger uc decrypt failures */
    WL_HC_RX_XTLV_ID_VAL_STALL_BCMC_DECRYPT_FAIL =
        7, /* trigger bcmc decrypt failures */
};

/* Health Check: Datapath SCAN IDs */
enum {
    WL_HC_XTLV_ID_VAL_SCAN_STALL_THRESHOLD = 1, /* scan stall threshold */
};

/* Health check: PHY IDs */
/* Needed for iguana 13.35 branch */
typedef enum {
    PHY_HC_DD_ALL = 0,
    PHY_HC_DD_TEMPSENSE = 1,
    PHY_HC_DD_VCOCAL = 2,
    PHY_HC_DD_RX = 3,
    PHY_HC_DD_TX = 4,
    PHY_HC_DD_LAST /* This must be the last entry */
} phy_hc_dd_type_t;

typedef enum {
    PHY_HC_DD_TEMP_FAIL = 0,
    PHY_HC_DD_VCO_FAIL = 1,
    PHY_HC_DD_RXDSN_FAIL = 2,
    PHY_HC_DD_TXPOW_FAIL = 3,
    PHY_HC_DD_END /* This must be the last entry */
} phy_hc_dd_type_v2_t;

/* IDs of Health Check report structures for sub types of health checks within
 * WL */
typedef enum wl_hc_dd_type {
    WL_HC_DD_PCIE = 0,         /* PCIe */
    WL_HC_DD_RX_DMA_STALL = 1, /* RX DMA stall check */
    WL_HC_DD_RX_STALL = 2,     /* RX stall check */
    WL_HC_DD_TX_STALL = 3,     /* TX stall check */
    WL_HC_DD_SCAN_STALL = 4,   /* SCAN stall check */
    WL_HC_DD_PHY = 5,          /* PHY health check */
    WL_HC_DD_REINIT = 6,       /* Reinit due to other reasons */
    WL_HC_DD_TXQ_STALL = 7,    /* TXQ stall */
    WL_HC_DD_RX_STALL_V2 = 8,  /* RX stall check v2 */
    WL_HC_DD_MAX
} wl_hc_dd_type_t;

/* RX stall reason codes sent with wl_rx_hc_info_v2_t */
typedef enum bcm_rx_hc_stall_reason {
    BCM_RX_HC_RESERVED = 0,
    BCM_RX_HC_UNSPECIFIED = 1,          /* All other. Catch all */
    BCM_RX_HC_UNICAST_DECRYPT_FAIL = 2, /* Unicast decrypt fail */
    BCM_RX_HC_BCMC_DECRYPT_FAIL = 3,    /* BCMC decrypt fail */
    BCM_RX_HC_UNICAST_REPLAY = 4,       /* Unicast replay */
    BCM_RX_HC_BCMC_REPLAY = 5,          /* BCMC replay */
    BCM_RX_HC_AMPDU_DUP = 6,            /* AMPDU DUP */
    BCM_RX_HC_MAX
} bcm_rx_hc_stall_reason_t;

/*
 * Health Check report structures for sub types of health checks within WL
 */

/* Health Check report structure for Rx DMA Stall check */
typedef struct {
    uint16 type;
    uint16 length;
    uint16 timeout;
    uint16 stalled_dma_bitmap;
} wl_rx_dma_hc_info_t;

/* Health Check report structure for Tx packet failure check */
typedef struct {
    uint16 type;
    uint16 length;
    uint32 stall_bitmap;
    uint32 stall_bitmap1;
    uint32 failure_ac;
    uint32 threshold;
    uint32 tx_all;
    uint32 tx_failure_all;
} wl_tx_hc_info_t;

/* Health Check report structure for Rx dropped packet failure check */
typedef struct {
    uint16 type; /* WL_HC_RX_DD_STALL */
    uint16 length;
    uint32 bsscfg_idx;
    uint32 rx_hc_pkts;
    uint32 rx_hc_dropped_all;
    uint32 rx_hc_alert_th;
} wl_rx_hc_info_t;

/* Health Check report structure for Rx dropped packet failure check */
typedef struct {
    uint16 type; /* WL_HC_RX_DD_STALL_V2 */
    uint16 length;
    uint8 if_idx; /* interface index on which issue is reported */
    uint8 ac;     /* access category on which this problem is seen */
    uint8 pad[2]; /* Reserved */
    uint32 rx_hc_pkts;
    uint32 rx_hc_dropped_all;
    uint32 rx_hc_alert_th;
    uint32 reason; /* refer to bcm_rx_hc_stall_reason_t above */
    struct ether_addr peer_ea;
} wl_rx_hc_info_v2_t;

/* HE top level command IDs */
enum {
    WL_HE_CMD_ENAB = 0u,
    WL_HE_CMD_FEATURES = 1u,
    WL_HE_CMD_TWT_SETUP = 2u,
    WL_HE_CMD_TWT_TEARDOWN = 3u,
    WL_HE_CMD_TWT_INFO = 4u,
    WL_HE_CMD_BSSCOLOR = 5u,
    WL_HE_CMD_PARTIAL_BSSCOLOR = 6u,
    WL_HE_CMD_CAP = 7u,
    WL_HE_CMD_STAID = 8u,
    WL_HE_CMD_MUEDCA = 9u,
    WL_HE_CMD_RTSDURTHRESH = 10u,
    WL_HE_CMD_PEDURATION = 11u,
    WL_HE_CMD_TESTBED_MODE = 12u,
    WL_HE_CMD_OMI_CONFIG = 13u,
    WL_HE_CMD_OMI_STATUS = 14u,
    WL_HE_CMD_OMI_ULMU_THROTTLE = 15u,
    WL_HE_CMD_ULMU_DISABLE_POLICY = 16u,
    WL_HE_CMD_ULMU_DISABLE_STATS = 17u,
    WL_HE_CMD_OMI_DLMU_RSD_RCM_MPF_MAP = 18u,
    WL_HE_CMD_SR_PROHIBIT = 19u,
    WL_HE_CMD_LAST
};

enum { WL_HE_MUEDCA_IE = 0, WL_HE_MUEDCA_SHM = 1, WL_HE_MUEDCA_LAST };

#ifdef WL11AX

/* struct for dump MU EDCA IE/SHM paramters */
typedef struct wl_he_muedca_ie_v1 {
    uint16 version; /* structure version */
    uint16 length;  /* data length (starting after this field) */
    uint8 mu_qos_info;
    he_mu_ac_param_record_t param_ac[AC_COUNT];
} wl_he_muedca_ie_v1_t;

typedef wl_he_muedca_ie_v1_t wl_he_muedca_ie_t;

#define WL_HE_MUEDCA_VER_1 1

#endif /* WL11AX */

/* TWT top level command IDs */
enum {
    WL_TWT_CMD_ENAB = 0,
    WL_TWT_CMD_SETUP = 1,
    WL_TWT_CMD_TEARDOWN = 2,
    WL_TWT_CMD_INFO = 3,
    WL_TWT_CMD_AUTOSCHED = 4,
    WL_TWT_CMD_STATS = 5,
    WL_TWT_CMD_EARLY_TERM_TIME = 6,
    WL_TWT_CMD_RESP_CONFIG = 7,
    WL_TWT_CMD_SPPS_ENAB = 8,
    WL_TWT_CMD_LAST
};

/* Remove the follwoing after mering TWT changes to trunk */
#define WL_TWT_CMD_DEF_IN_WLIOCTL 1

#define WL_HEB_VER_1 1

/* HEB top level command IDs */
enum {
    WL_HEB_CMD_ENAB = 0,
    WL_HEB_CMD_NUM_HEB = 1,
    WL_HEB_CMD_COUNTERS = 2,
    WL_HEB_CMD_CLEAR_COUNTERS = 3,
    WL_HEB_CMD_CONFIG = 4,
    WL_HEB_CMD_STATUS = 5,
    WL_HEB_CMD_LAST
};

/* HEB counters structures */
typedef struct wl_heb_int_cnt_v1 {
    uint16 pre_event;
    uint16 start_event;
    uint16 end_event;
    uint16 missed;
} wl_heb_int_cnt_v1_t;

typedef struct wl_heb_cnt_v1 {
    /* structure control */
    uint16 version; /* structure version */
    uint16 length;  /* data length (starting after this field) */
    wl_heb_int_cnt_v1_t heb_int_cnt[1];
} wl_heb_cnt_v1_t;

// struct for configuring HEB
typedef struct wl_config_heb_fill_v1 {
    uint16 version; /* structure version */
    uint16 length;  /* data length (starting after this field) */
    uint32 duration;
    uint32 periodicity;
    uint16 heb_idx;
    uint16 preeventtime;
    uint8 count;
    uint8 PAD[3];
} wl_config_heb_fill_v1_t;

typedef struct wl_heb_blk_params_v1 {
    /* Don't change the order of following elements. This is as per the HEB HW
     * spec */
    uint32 event_int_val_l;
    uint32 event_int_val_h;
    uint32 param2;
    uint32 param3;
    uint32 pre_event_intmsk_bmp;
    uint32 start_event_intmsk_bmp;
    uint32 end_event_intmsk_bmp;
    uint32 event_driver_info;
    uint16 param1;
    uint8 event_count;
    uint8 noa_invert;
} wl_heb_blk_params_v1_t;

typedef struct wl_heb_int_status_v1 {
    uint32 heb_idx;
    wl_heb_blk_params_v1_t blk_params;
} wl_heb_reg_status_v1_t;

typedef struct wl_heb_status_v1 {
    uint16 version; /* structure version */
    uint16 length;  /* data length (starting after this field) */
    wl_heb_reg_status_v1_t heb_status[1];
} wl_heb_status_v1_t;

/* HWA */
#define WL_HWA_VER_1 1

/* HWA top level command IDs */
typedef enum wl_hwa_cmd_type {
    WL_HWA_CMD_ENAB = 0,
    WL_HWA_CMD_CAPS = 1,
    WL_HWA_CMD_COUNTERS = 2,
    WL_HWA_CMD_CLRCNTS = 3,
    WL_HWA_CMD_REGDUMP = 4,
    WL_HWA_CMD_INDUCE_ERR = 5,
    WL_HWA_CMD_LAST
} wl_hwa_cmd_type_t;

typedef struct wl_hwa_cnts_info_v1 {
    uint16 cnt_rxs_filter;    /* #filters added */
    uint16 cnt_rxs_chainable; /* #rxchainable matched */
} wl_hwa_cnts_info_v1_t;

/* HWA dump info structures */
typedef struct wl_hwa_hwcaps_info_v1 {
    uint16 up;              /* is hwa init'd/deint'd */
    uint16 corerev;         /* hwa core revision */
    uint32 submodules_mask; /* mask for hwa submodules that are enabled */
} wl_hwa_hwcaps_info_v1_t;

typedef struct wl_hwa_cnts_v1 {
    /* structure control */
    uint16 version; /* structure version */
    uint16 length;  /* data length (starting after this field) */
    wl_hwa_cnts_info_v1_t
        hwa_cnts_info[]; /* variable length array with hwa counters */
} wl_hwa_cnts_v1_t;

/* All submodules, order is important and define order of initialization. */
/* Not use enumeration here because these defines are also used in macro */
#define HWA_SUBMODULES_COMMON 0      /**< Common */
#define HWA_SUBMODULES_TXPOST 1u     /**< TxPost 3a */
#define HWA_SUBMODULES_RXPOSTFILL 2u /**< RxPost and Fill 1a/1b */
#define HWA_SUBMODULES_TXDMA 3u      /**< TxDMA 3b */
#define HWA_SUBMODULES_TXS 4u        /**< TxStatus 4a */
#define HWA_SUBMODULES_BUFMGR 5u /**< Buffer Manager, RX and TX. Do this last  \
                                  */
#define HWA_SUBMODULES_CPL 6u    /**< Completion 2b/4b */
#define HWA_SUBMODULES_RXS 7u    /**< RxStatus 2a */
#define HWA_SUBMODULES_NUM 8u    /**< number of submodules */

#define HWA_SUBMODULES_ALL 0xFF /* Bitmaps for all submodules */
#ifdef HWA
#define HWA_SUBMODULE_MASK(submodule) (1u << (submodule))
#else
#define HWA_SUBMODULE_MASK(submodule) (0)
#endif /* HWA */
/*
 * NOTES:
 * wl_twt_sdesc_t is used to support both broadcast TWT and individual TWT.
 * Value in bit[0:2] in 'flow_id' field is interpreted differently:
 * - flow id for individual TWT (when WL_TWT_FLOW_FLAG_BROADCAST bit is NOT set
 *   in 'flow_flags' field)
 * - flow id as defined in Table 8-248l1 for broadcast TWT (when
 *   WL_TWT_FLOW_FLAG_BROADCAST bit is set)
 * In latter case other bits could be used to differentiate different flows
 * in order to support multiple broadcast TWTs with the same flow id.
 */

/* TWT Setup descriptor */
typedef struct wl_twt_sdesc {
    /* Setup Command. */
    uint8 setup_cmd;  /* See TWT_SETUP_CMD_XXXX in 802.11ah.h */
    uint8 flow_flags; /* Flow attributes. See WL_TWT_FLOW_FLAG_XXXX below */
    uint8 flow_id; /* must be between 0 and 7. Set 0xFF for auto assignment */
    uint8 bid;     /* must be between 0 and 31. Set 0xFF for auto assignment */
    uint8 channel; /* Twt channel - Not used for now */
    uint8 negotiation_type; /* Negotiation Type: See macros TWT_NEGO_TYPE_X */
    uint8 frame_recomm; /* frame recommendation for broadcast TWTs - Not used
                           for now	 */
    uint8 wake_type;    /* See WL_TWT_TIME_TYPE_XXXX below */
    uint32 wake_time_h; /* target wake time - BSS TSF (us) */
    uint32 wake_time_l;
    uint32 wake_dur;         /* target wake duration in unit of microseconds */
    uint32 wake_int;         /* target wake interval */
    uint32 btwt_persistence; /* Broadcast TWT Persistence */
    uint32 wake_int_max;     /* max wake interval(uS) for TWT */
    uint8 duty_cycle_min;    /* min duty cycle for TWT(Percentage) */
    uint8 pad;
    /* deprecated - to be removed */
    uint16 li;
} wl_twt_sdesc_t;

/* Flow flags */
#define WL_TWT_FLOW_FLAG_UNANNOUNCED (1u << 0u)
#define WL_TWT_FLOW_FLAG_TRIGGER (1u << 1u)
#define WL_TWT_FLOW_FLAG_REQUEST (1u << 2u)
#define WL_TWT_FLOW_FLAG_PROTECT (1u << 3u)
#define WL_TWT_FLOW_FLAG_RESPONDER_PM (1u << 4u)
#define WL_TWT_FLOW_FLAG_UNSOLICITED (1u << 5u)

/* Deprecated - To be removed */
#define WL_TWT_FLOW_FLAG_BROADCAST (1u << 5u)
#define WL_TWT_FLOW_FLAG_WAKE_TBTT_NEGO (1u << 6u)
#define WL_TWT_FLOW_FLAG_IMPLICIT (1u << 7u)

/* Flow id */
#define WL_TWT_FLOW_ID_FID 0x07u      /* flow id */
#define WL_TWT_FLOW_ID_GID_MASK 0x70u /* group id - broadcast TWT only */
#define WL_TWT_FLOW_ID_GID_SHIFT 4u

#define WL_TWT_INV_BCAST_ID 0xFFu
#define WL_TWT_INV_FLOW_ID 0xFFu

/* auto flow_id */
#define WL_TWT_SETUP_FLOW_ID_AUTO 0xFFu
/* auto broadcast ID */
#define WL_TWT_SETUP_BCAST_ID_AUTO 0xFFu
/* Infinite persistence for broadcast schedule */
#define WL_TWT_INFINITE_BTWT_PERSIST 0xFFFFFFFFu

/* should be larger than what chip supports */
#define WL_TWT_STATS_MAX_BTWT 4u
#define WL_TWT_STATS_MAX_ITWT 4u

/* Wake type */
/* not yet finalized */
#define WL_TWT_TIME_TYPE_BSS                                                   \
    0u /* The time specified in wake_time_h/l is                               \
        * the BSS TSF time.                                                    \
        */
#define WL_TWT_TIME_TYPE_OFFSET                                                \
    1u /* The time specified in wake_time_h/l is an offset                     \
        * of the TSF time when the iovar is processed.                         \
        */
#define WL_TWT_TIME_TYPE_AUTO                                                  \
    2u /* The target wake time is chosen internally by the FW */

#define WL_TWT_SETUP_VER 0u

/* HE TWT Setup command */
typedef struct wl_twt_setup {
    /* structure control */
    uint16 version; /* structure version */
    uint16 length;  /* data length (starting after this field) */
    /* peer address */
    struct ether_addr peer; /* leave it all 0s' for AP */
    uint8 pad[2];
    /* setup descriptor */
    wl_twt_sdesc_t desc;

    /* deprecated - to be removed */
    uint16 dialog;
    uint8 pad1[2];
} wl_twt_setup_t;

/* deprecated -to be removed */
#define WL_TWT_DIALOG_TOKEN_AUTO 0xFFFF

#define WL_TWT_TEARDOWN_VER 0u

/* twt teardown descriptor */
typedef struct wl_twt_teardesc {
    uint8 negotiation_type;
    uint8 flow_id; /* must be between 0 and 7 */
    uint8 bid;     /* must be between 0 and 31 */
    bool alltwt;   /* all twt teardown - 0 or 1 */
} wl_twt_teardesc_t;

/* HE TWT Teardown command */
typedef struct wl_twt_teardown {
    /* structure control */
    uint16 version; /* structure version */
    uint16 length;  /* data length (starting after this field) */
    /* peer address */
    struct ether_addr peer;     /* leave it all 0s' for AP */
    wl_twt_teardesc_t teardesc; /* Teardown descriptor */

    /* deprecated - to be removed */
    uint8 flow_flags;
    uint8 flow_id;
    uint8 bid;
    uint8 pad;
} wl_twt_teardown_t;

/* twt information descriptor */
typedef struct wl_twt_infodesc {
    uint8 flow_flags; /* See WL_TWT_INFO_FLAG_XXX below */
    uint8 flow_id;
    uint8 pad[2];
    uint32 next_twt_h;
    uint32 next_twt_l;
    /* deprecated - to be removed */
    uint8 wake_type;
    uint8 pad1[3];
} wl_twt_infodesc_t;

/* Flow flags */
#define WL_TWT_INFO_FLAG_ALL_TWT (1u << 0u) /* All TWT */
#define WL_TWT_INFO_FLAG_RESUME                                                \
    (1u << 1u) /* 1 is TWT Resume, 0 is TWT Suspend */

/* deprecated - to be removed */
#define WL_TWT_INFO_FLAG_RESP_REQ (1 << 0)     /* Response Requested */
#define WL_TWT_INFO_FLAG_NEXT_TWT_REQ (1 << 1) /* Next TWT Request */
#define WL_TWT_INFO_FLAG_BTWT_RESCHED (1 << 2) /* Broadcast Reschedule */
typedef wl_twt_infodesc_t wl_twt_idesc_t;

#define WL_TWT_INFO_VER 0u

/* HE TWT Information command */
typedef struct wl_twt_info {
    /* structure control */
    uint16 version; /* structure version */
    uint16 length;  /* data length (starting after this field) */
    /* peer address */
    struct ether_addr peer; /* leave it all 0s' for AP */
    uint8 pad[2];
    wl_twt_infodesc_t infodesc; /* information descriptor */
    /* deprecated - to be removed */
    wl_twt_idesc_t desc;
} wl_twt_info_t;

#define WL_TWT_PEER_STATS_VERSION_1 1u
typedef struct wl_twt_peer_stats_v1 {
    uint16 version;
    uint16 length;
    struct ether_addr peer;
    uint8 PAD[2];
    uint8 id;
    uint8 flow_flags;
    uint8 PAD[2];
    uint32 sp_seq; /* sequence number of the service period */
    uint32 tx_ucast_pkts;
    uint32 tx_pkts_min;
    uint32 tx_pkts_max;
    uint32 tx_pkts_avg;
    uint32 tx_failures;
    uint32 rx_ucast_pkts;
    uint32 rx_pkts_min;
    uint32 rx_pkts_max;
    uint32 rx_pkts_avg;
    uint32 rx_pkts_retried;
} wl_twt_peer_stats_v1_t;

#define WL_TWT_STATS_VERSION_1 1
typedef struct wl_twt_stats_v1 {
    uint16 version;
    uint16 length;
    uint32 num_stats; /* number of peer stats in the peer_stats_list */
    wl_twt_peer_stats_v1_t peer_stats_list[];
} wl_twt_stats_v1_t;

#define WL_TWT_STATS_CMD_VERSION_1 1
#define WL_TWT_STATS_CMD_FLAGS_RESET (1u << 0u)
/* HE TWT stats command */
typedef struct wl_twt_stats_cmd_v1 {
    uint16 version;
    uint16 length;
    struct ether_addr peer;
    uint8 PAD[2];
    uint16 flags; /* see WL_TWT_STATS_CMD_FLAGS */
    uint8 num_fid;
    uint8 num_bid;
    uint8 fid_list[WL_TWT_STATS_MAX_ITWT];
    uint8 bid_list[WL_TWT_STATS_MAX_BTWT];
} wl_twt_stats_cmd_v1_t;

#define WL_TWT_RESP_CFG_VER 0u

#define WL_TWT_CMD_RESP_CFG_TYPE_ALTERNATE 0u
#define WL_TWT_CMD_RESP_CFG_TYPE_DICTATE 1u
/* HE TWT resp command */
typedef struct wl_twt_resp_cfg {
    /* structure control */
    uint16 version;  /* Structure version */
    uint16 length;   /* Data length (starting after this field) */
    uint8 dc_max;    /* Max supported duty cycle for single TWT */
    uint8 resp_type; /* Resp. type(Alt/dict) if duty cycle>max duty cycle */
} wl_twt_resp_cfg_t;

/* Current version for wlc_clm_power_limits_req_t structure and flags */
#define WLC_CLM_POWER_LIMITS_REQ_VERSION 1
/* "clm_power_limits" iovar request structure */
typedef struct wlc_clm_power_limits_req {
    /* Input. Structure and flags version */
    uint32 version;
    /* Full length of buffer (includes this structure and space for TLV-encoded
     * PPR) */
    uint32 buflen;
    /* Input. Flags (see WLC_CLM_POWER_LIMITS_INPUT_FLAG_... below) */
    uint32 input_flags;
    /* Input. CC of region whose data is being requested */
    char cc[WLC_CNTRY_BUF_SZ];
    /* Input. Channel/subchannel in chanspec_t format */
    uint32 chanspec;
    /* Subchannel encoded as clm_limits_type_t */
    uint32 clm_subchannel;
    /* Input. 0-based antenna index */
    uint32 antenna_idx;
    /* Output. General flags (see WLC_CLM_POWER_LIMITS_OUTPUT_FLAG_... below) */
    uint32 output_flags;
    /* Output. 2.4G country flags, encoded as clm_flags_t enum */
    uint32 clm_country_flags_2g;
    /* Output. 5G country flags, encoded as clm_flags_t enum */
    uint32 clm_country_flags_5g;
    /* Output. Length of TLV-encoded PPR data that follows this structure */
    uint32 ppr_tlv_size;
    /* Output. Beginning of buffer for TLV-encoded PPR data */
    uint8 ppr_tlv[1];
} wlc_clm_power_limits_req_t;

/* Input. Do not apply SAR limits */
#define WLC_CLM_POWER_LIMITS_INPUT_FLAG_NO_SAR 0x00000001
/* Input. Do not apply board limits */
#define WLC_CLM_POWER_LIMITS_INPUT_FLAG_NO_BOARD 0x00000002
/* Output. Limits taken from product-specific country data */
#define WLC_CLM_POWER_LIMITS_OUTPUT_FLAG_PRODUCT_LIMITS 0x00000001
/* Output. Limits taken from product-specific worldwide data */
#define WLC_CLM_POWER_LIMITS_OUTPUT_FLAG_WORLDWIDE_LIMITS 0x00000002
/* Output. Limits taken from country-default (all-product) data */
#define WLC_CLM_POWER_LIMITS_OUTPUT_FLAG_DEFAULT_COUNTRY_LIMITS 0x00000004

#define WL_MBO_IOV_MAJOR_VER 1
#define WL_MBO_IOV_MINOR_VER 1
#define WL_MBO_IOV_MAJOR_VER_SHIFT 8
#define WL_MBO_IOV_VERSION                                                     \
    ((WL_MBO_IOV_MAJOR_VER << WL_MBO_IOV_MAJOR_VER_SHIFT) |                    \
     WL_MBO_IOV_MINOR_VER)

#define MBO_MAX_CHAN_PREF_ENTRIES 16

enum wl_mbo_cmd_ids {
    WL_MBO_CMD_ADD_CHAN_PREF = 1,
    WL_MBO_CMD_DEL_CHAN_PREF = 2,
    WL_MBO_CMD_LIST_CHAN_PREF = 3,
    WL_MBO_CMD_CELLULAR_DATA_CAP = 4,
    WL_MBO_CMD_DUMP_COUNTERS = 5,
    WL_MBO_CMD_CLEAR_COUNTERS = 6,
    WL_MBO_CMD_FORCE_ASSOC = 7,
    WL_MBO_CMD_BSSTRANS_REJECT = 8,
    WL_MBO_CMD_SEND_NOTIF = 9,
    /* Unused command, This enum no can be use
     * for next new command
     */
    WL_MBO_CMD_CLEAR_CHAN_PREF = 10,
    WL_MBO_CMD_NBR_INFO_CACHE = 11,
    WL_MBO_CMD_ANQPO_SUPPORT = 12,
    WL_MBO_CMD_DBG_EVENT_CHECK = 13,
    WL_MBO_CMD_EVENT_MASK = 14,
    /* Add before this !! */
    WL_MBO_CMD_LAST
};

enum wl_mbo_xtlv_id {
    WL_MBO_XTLV_OPCLASS = 0x1,
    WL_MBO_XTLV_CHAN = 0x2,
    WL_MBO_XTLV_PREFERENCE = 0x3,
    WL_MBO_XTLV_REASON_CODE = 0x4,
    WL_MBO_XTLV_CELL_DATA_CAP = 0x5,
    WL_MBO_XTLV_COUNTERS = 0x6,
    WL_MBO_XTLV_ENABLE = 0x7,
    WL_MBO_XTLV_SUB_ELEM_TYPE = 0x8,
    WL_MBO_XTLV_BTQ_TRIG_START_OFFSET = 0x9,
    WL_MBO_XTLV_BTQ_TRIG_RSSI_DELTA = 0xa,
    WL_MBO_XTLV_ANQP_CELL_SUPP = 0xb,
    WL_MBO_XTLV_BIT_MASK = 0xc
};

/* event bit mask flags for MBO */
#define MBO_EVT_BIT_MASK_CELLULAR_SWITCH                                       \
    0x0001 /* Evt bit mask to enab cellular switch */
#define MBO_EVT_BIT_MASK_BTM_REQ_RCVD                                          \
    0x0002 /* Evt bit mask to enab BTM req rcvd */

typedef struct wl_mbo_counters {
    /* No of transition req recvd */
    uint16 trans_req_rcvd;
    /* No of transition req with disassoc imminent */
    uint16 trans_req_disassoc;
    /* No of transition req with BSS Termination */
    uint16 trans_req_bss_term;
    /* No of trans req w/ unspecified reason */
    uint16 trans_resn_unspec;
    /* No of trans req w/ reason frame loss */
    uint16 trans_resn_frm_loss;
    /* No of trans req w/ reason traffic delay */
    uint16 trans_resn_traffic_delay;
    /* No of trans req w/ reason insufficient buffer */
    uint16 trans_resn_insuff_bw;
    /* No of trans req w/ reason load balance */
    uint16 trans_resn_load_bal;
    /* No of trans req w/ reason low rssi */
    uint16 trans_resn_low_rssi;
    /* No of trans req w/ reason excessive retransmission */
    uint16 trans_resn_xcess_retransmn;
    /* No of trans req w/ reason gray zone */
    uint16 trans_resn_gray_zone;
    /* No of trans req w/ reason switch to premium AP */
    uint16 trans_resn_prem_ap_sw;
    /* No of transition rejection sent */
    uint16 trans_rejn_sent;
    /* No of trans rejn reason excessive frame loss */
    uint16 trans_rejn_xcess_frm_loss;
    /* No of trans rejn reason excessive traffic delay */
    uint16 trans_rejn_xcess_traffic_delay;
    /* No of trans rejn reason insufficient QoS capability */
    uint16 trans_rejn_insuffic_qos_cap;
    /* No of trans rejn reason low RSSI */
    uint16 trans_rejn_low_rssi;
    /* No of trans rejn reason high interference */
    uint16 trans_rejn_high_interference;
    /* No of trans rejn reason service unavilable */
    uint16 trans_rejn_service_unavail;
    /* No of beacon request rcvd */
    uint16 bcn_req_rcvd;
    /* No of beacon report sent */
    uint16 bcn_rep_sent;
    /* No of null beacon report sent */
    uint16 null_bcn_rep_sent;
    /* No of wifi to cell switch */
    uint16 wifi_to_cell;
} wl_mbo_counters_t;

#define WL_FILS_IOV_MAJOR_VER 1
#define WL_FILS_IOV_MINOR_VER 1
#define WL_FILS_IOV_MAJOR_VER_SHIFT 8
#define WL_FILS_IOV_VERSION                                                    \
    ((WL_FILS_IOV_MAJOR_VER << WL_FILS_IOV_MAJOR_VER_SHIFT) |                  \
     WL_FILS_IOV_MINOR_VER)

enum wl_fils_cmd_ids {
    WL_FILS_CMD_ADD_IND_IE = 1,
    WL_FILS_CMD_ADD_AUTH_DATA =
        2, /* Deprecated, kept to prevent ROM invalidation */
    WL_FILS_CMD_ADD_HLP_IE = 3,
    WL_FILS_CMD_ADD_CONNECT_PARAMS = 4,
    WL_FILS_CMD_GET_CONNECT_PARAMS = 5,
    /* Add before this !! */
    WL_FILS_CMD_LAST
};

enum wl_fils_xtlv_id {
    WL_FILS_XTLV_IND_IE = 0x1,
    WL_FILS_XTLV_AUTH_DATA =
        0x2, /* Deprecated, kept to prevent ROM invalidation */
    WL_FILS_XTLV_HLP_IE = 0x3,
    WL_FILS_XTLV_ERP_USERNAME = 0x4,
    WL_FILS_XTLV_ERP_REALM = 0x5,
    WL_FILS_XTLV_ERP_RRK = 0x6,
    WL_FILS_XTLV_ERP_NEXT_SEQ_NUM = 0x7,
    WL_FILS_XTLV_KEK = 0x8,
    WL_FILS_XTLV_PMK = 0x9,
    WL_FILS_XTLV_TK = 0xa,
    WL_FILS_XTLV_PMKID = 0xb
};

#define WL_OCE_IOV_MAJOR_VER 1
#define WL_OCE_IOV_MINOR_VER 1
#define WL_OCE_IOV_MAJOR_VER_SHIFT 8
#define WL_OCE_IOV_VERSION                                                     \
    ((WL_OCE_IOV_MAJOR_VER << WL_OCE_IOV_MAJOR_VER_SHIFT) |                    \
     WL_OCE_IOV_MINOR_VER)

enum wl_oce_cmd_ids {
    WL_OCE_CMD_ENABLE = 1,
    WL_OCE_CMD_PROBE_DEF_TIME = 2,
    WL_OCE_CMD_FD_TX_PERIOD = 3,
    WL_OCE_CMD_FD_TX_DURATION = 4,
    WL_OCE_CMD_RSSI_TH = 5,
    WL_OCE_CMD_RWAN_LINKS = 6,
    WL_OCE_CMD_CU_TRIGGER = 7,
    /* Add before this !! */
    WL_OCE_CMD_LAST
};

enum wl_oce_xtlv_id {
    WL_OCE_XTLV_ENABLE = 0x1,
    WL_OCE_XTLV_PROBE_DEF_TIME = 0x2,
    WL_OCE_XTLV_FD_TX_PERIOD = 0x3,
    WL_OCE_XTLV_FD_TX_DURATION = 0x4,
    WL_OCE_XTLV_RSSI_TH = 0x5,
    WL_OCE_XTLV_RWAN_LINKS = 0x6,
    WL_OCE_XTLV_CU_TRIGGER = 0x7
};

#define WL_ESP_IOV_MAJOR_VER 1
#define WL_ESP_IOV_MINOR_VER 1
#define WL_ESP_IOV_MAJOR_VER_SHIFT 8
#define WL_ESP_IOV_VERSION                                                     \
    ((WL_ESP_IOV_MAJOR_VER << WL_ESP_IOV_MAJOR_VER_SHIFT) |                    \
     WL_ESP_IOV_MINOR_VER)

enum wl_esp_cmd_ids {
    WL_ESP_CMD_ENABLE = 1,
    WL_ESP_CMD_STATIC = 2,
    /* Add before this !! */
    WL_ESP_CMD_LAST
};

enum wl_esp_xtlv_id {
    WL_ESP_XTLV_ENABLE = 0x1,
    WL_ESP_XTLV_STATIC_AC = 0x2,   /* access category */
    WL_ESP_XTLV_STATIC_TYPE = 0x3, /* data type */
    WL_ESP_XTLV_STATIC_VAL = 0x4
};

/* otpread command */
#define WL_OTPREAD_VER 1

typedef struct {
    uint16 version;  /* cmd structure version */
    uint16 cmd_len;  /* cmd struct len */
    uint32 rdmode;   /* otp read mode */
    uint32 rdoffset; /* byte offset into otp to start read */
    uint32 rdsize;   /* number of bytes to read */
} wl_otpread_cmd_t;

/* "otpecc_rows" command */
typedef struct {
    uint16 version;   /* version of this structure */
    uint16 len;       /* len in bytes of this structure */
    uint32 cmdtype;   /* command type : 0 : read row data, 1 : ECC lock  */
    uint32 rowoffset; /* start row offset */
    uint32 numrows;   /* number of rows */
    uint8 rowdata[];  /* read rows data */
} wl_otpecc_rows_t;

#define WL_OTPECC_ROWS_VER 1

#define WL_OTPECC_ROWS_CMD_READ 0
#define WL_OTPECC_ROWS_CMD_LOCK 1

#define WL_OTPECC_ARGIDX_CMDTYPE 0   /* command type */
#define WL_OTPECC_ARGIDX_ROWOFFSET 1 /* start row offset */
#define WL_OTPECC_ARGIDX_NUMROWS 2   /* number of rows */

/* "otpeccrows" raw data size per row */
#define WL_ECCDUMP_ROW_SIZE_BYTE 6 /* 4 bytes row data + 2 bytes ECC status */
#define WL_ECCDUMP_ROW_SIZE_WORD 3

/* otpECCstatus */
#define OTP_ECC_ENAB_SHIFT 13
#define OTP_ECC_ENAB_MASK 0x7
#define OTP_ECC_CORR_ST_SHIFT 12
#define OTP_ECC_CORR_ST_MASK 0x1
#define OTP_ECC_DBL_ERR_SHIFT 11
#define OTP_ECC_DBL_ERR_MASK 0x1
#define OTP_ECC_DED_ST_SHIFT 10
#define OTP_ECC_DED_ST_MASK 0x1
#define OTP_ECC_SEC_ST_SHIFT 9
#define OTP_ECC_SEC_ST_MASK 0x1
#define OTP_ECC_DATA_SHIFT 0
#define OTP_ECC_DATA_MASK 0x7f

/* OTP_ECC_CORR_ST field */
#define OTP_ECC_MODE 1
#define OTP_NO_ECC_MODE 0

/* OTP_ECC_ENAB field (bit15:13) :
 * When 2 or 3 bits are set,
 * it indicates that OTP ECC is enabled on the last row read.
 * Otherwise, ECC is disabled
 */
#define OTP_ECC_ENAB(val) (bcm_bitcount((uint8 *)&(val), sizeof(uint8)) > 1)

#define WL_LEAKY_AP_STATS_GT_TYPE 0
#define WL_LEAKY_AP_STATS_PKT_TYPE 1
typedef struct wlc_leaked_infra_guard_marker {
    /* type field for this TLV: WL_LEAKY_AP_STATS_GT_TYPE */
    uint16 type;
    /* length field for this TLV */
    uint16 len;
    /* guard sample sequence number; Updated by 1 on every guard sample */
    uint32 seq_number;
    /* Guard time start time (tsf; PS indicated and acked) */
    uint32 start_time;
    /* tsf timestamp for the GT end event */
    uint32 gt_tsf_l;
    /* Guard time period in ms */
    uint16 guard_duration;
    /* Number PPDUs in the notification */
    uint16 num_pkts;
    /* Flags to indicate some states see below */
    uint8 flag;
    /* pad for 32-bit alignment */
    uint8 reserved[3];
} wlc_leaked_infra_guard_marker_t;

/* Flag information */
#define WL_LEAKED_GUARD_TIME_NONE 0           /* Not in any guard time */
#define WL_LEAKED_GUARD_TIME_FRTS (0x01 << 0) /* Normal FRTS power save */
#define WL_LEAKED_GUARD_TIME_SCAN                                              \
    (0x01 << 1) /* Channel switch due to scanning */
#define WL_LEAKED_GUARD_TIME_INFRA_STA                                         \
    (0x01 << 4) /* generic type infra sta channel switch */
#define WL_LEAKED_GUARD_TIME_TERMINATED                                        \
    (0x01 << 7) /* indicate a GT is terminated early */

typedef struct wlc_leaked_infra_packet_stat {
    uint16 type; /* type field for this TLV: WL_LEAKY_AP_STATS_PKT_TYPE */
    uint16 len;  /* length field for this TLV */
    uint16 ppdu_len_bytes; /* PPDU packet length in bytes */
    uint16 num_mpdus;      /* number of the MPDUs in the PPDU */
    uint32 ppdu_time;  /* PPDU arrival time at the begining of the guard time */
    uint32 rate;       /* PPDU packet rate; Received packet's data rate */
    uint16 seq_number; /* sequence number */
    int8 rssi;         /* RSSI */
    uint8 tid;         /* tid */
} wlc_leaked_infra_packet_stat_t;

/* Wake timer structure definition */
#define WAKE_TIMER_VERSION 1
#define WAKE_TIMER_NOLIMIT 0xFFFF

typedef struct wake_timer {
    uint16 ver;
    uint16 len;
    uint16 limit;  /* number of events to deliver
                    * 0-disable, 0xffff-indefinite, num_events otherwise
                    */
    uint16 count;  /* number of events delivered since enable (get only) */
    uint16 period; /* timeout/period in milliseconds */
} wake_timer_t;

typedef struct wl_desense_restage_gain {
    uint16 version;
    uint16 length;
    uint32 band;
    uint8 num_cores;
    uint8 desense_array[WL_TX_CHAINS_MAX];
    uint8 PAD[3];
} wl_desense_restage_gain_t;

#define MAX_UCM_CHAINS 5
#define MAX_UCM_PROFILES 10
#define UCM_PROFILE_VERSION_1 1

/* UCM per chain attribute struct */
typedef struct wlc_btcx_chain_attr {
    uint16 length; /* chain attr length, version is same as profile version */
    int8 desense_level;       /* per chain desense level */
    int8 ack_pwr_strong_rssi; /* per chain ack power at strong rssi */
    int8 ack_pwr_weak_rssi;   /* per chain ack power at weak rssi */
    int8 tx_pwr_strong_rssi;  /* per chain tx power at strong rssi */
    int8 tx_pwr_weak_rssi;    /* per chain tx power at weak rssi */
    uint8 PAD[1];             /* additional bytes for alignment */
} wlc_btcx_chain_attr_t;

typedef struct wlc_btcx_profile_v1 {
    uint16 version;          /* UCM profile version */
    uint16 length;           /* profile size */
    uint16 fixed_length;     /* size of the fixed portion of the profile */
    uint8 init;              /* profile initialized or not */
    uint8 chain_attr_count;  /* Number of elements in chain_attr array */
    uint8 profile_index;     /* profile index */
    uint8 mode_strong_wl_bt; /* Mode under strong WLAN and BT RSSI */
    uint8 mode_weak_wl;      /* Mode under weak WLAN RSSI */
    uint8 mode_weak_bt;      /* Mode under weak BT RSSI */
    uint8 mode_weak_wl_bt;   /* Mode under weak BT and WLAN RSSI */
    int8 mode_wl_hi_lo_rssi_thresh; /* Strong to weak WLAN RSSI threshold for
                                       mode selection */
    int8 mode_wl_lo_hi_rssi_thresh; /* Weak to strong WLAN RSSI threshold for
                                       mode selection */
    int8 mode_bt_hi_lo_rssi_thresh; /* Strong to weak BT RSSI threshold for mode
                                       selection */
    int8 mode_bt_lo_hi_rssi_thresh; /* Weak to strong BT RSSI threshold for mode
                                       selection */
    int8 desense_wl_hi_lo_rssi_thresh; /* Strong to weak RSSI threshold for
                                          desense */
    int8 desense_wl_lo_hi_rssi_thresh; /* Weak to strong RSSI threshold for
                                          desense */
    int8 ack_pwr_wl_hi_lo_rssi_thresh; /* Strong to weak RSSI threshold for ACK
                                          power */
    int8 ack_pwr_wl_lo_hi_rssi_thresh; /* Weak to strong RSSI threshold for ACK
                                          power */
    int8 tx_pwr_wl_hi_lo_rssi_thresh;  /* Strong to weak RSSI threshold for Tx
                                          power */
    int8 tx_pwr_wl_lo_hi_rssi_thresh;  /* Weak to strong RSSI threshold for Tx
                                          power */
    uint8 PAD[1]; /* additional bytes for 4 byte alignment */
    wlc_btcx_chain_attr_t
        chain_attr[]; /* variable length array with chain attributes */
} wlc_btcx_profile_v1_t;

#define SSSR_D11_RESET_SEQ_STEPS 5

#define SSSR_REG_INFO_VER_0 0u
#define SSSR_REG_INFO_VER_1 1u
#define SSSR_REG_INFO_VER_2 2u

typedef struct sssr_reg_info_v0 {
    uint16 version;
    uint16 length; /* length of the structure validated at host */
    struct {
        struct {
            uint32 pmuintmask0;
            uint32 pmuintmask1;
            uint32 resreqtimer;
            uint32 macresreqtimer;
            uint32 macresreqtimer1;
        } base_regs;
    } pmu_regs;
    struct {
        struct {
            uint32 intmask;
            uint32 powerctrl;
            uint32 clockcontrolstatus;
            uint32 powerctrl_mask;
        } base_regs;
    } chipcommon_regs;
    struct {
        struct {
            uint32 clockcontrolstatus;
            uint32 clockcontrolstatus_val;
        } base_regs;
        struct {
            uint32 resetctrl;
            uint32 itopoobb;
        } wrapper_regs;
    } arm_regs;
    struct {
        struct {
            uint32 ltrstate;
            uint32 clockcontrolstatus;
            uint32 clockcontrolstatus_val;
        } base_regs;
        struct {
            uint32 itopoobb;
        } wrapper_regs;
    } pcie_regs;
    struct {
        struct {
            uint32 ioctrl;
        } wrapper_regs;
        uint32 vasip_sr_addr;
        uint32 vasip_sr_size;
    } vasip_regs;
    struct {
        struct {
            uint32 xmtaddress;
            uint32 xmtdata;
            uint32 clockcontrolstatus;
            uint32 clockcontrolstatus_val;
        } base_regs;
        struct {
            uint32 resetctrl;
            uint32 itopoobb;
            uint32 ioctrl;
            uint32 ioctrl_resetseq_val[SSSR_D11_RESET_SEQ_STEPS];
        } wrapper_regs;
        uint32 sr_size;
    } mac_regs[MAX_NUM_D11CORES];
} sssr_reg_info_v0_t;

typedef struct sssr_reg_info_v1 {
    uint16 version;
    uint16 length; /* length of the structure validated at host */
    struct {
        struct {
            uint32 pmuintmask0;
            uint32 pmuintmask1;
            uint32 resreqtimer;
            uint32 macresreqtimer;
            uint32 macresreqtimer1;
        } base_regs;
    } pmu_regs;
    struct {
        struct {
            uint32 intmask;
            uint32 powerctrl;
            uint32 clockcontrolstatus;
            uint32 powerctrl_mask;
        } base_regs;
    } chipcommon_regs;
    struct {
        struct {
            uint32 clockcontrolstatus;
            uint32 clockcontrolstatus_val;
        } base_regs;
        struct {
            uint32 resetctrl;
            uint32 itopoobb;
        } wrapper_regs;
    } arm_regs;
    struct {
        struct {
            uint32 ltrstate;
            uint32 clockcontrolstatus;
            uint32 clockcontrolstatus_val;
        } base_regs;
        struct {
            uint32 itopoobb;
        } wrapper_regs;
    } pcie_regs;
    struct {
        struct {
            uint32 ioctrl;
        } wrapper_regs;
        uint32 vasip_sr_addr;
        uint32 vasip_sr_size;
    } vasip_regs;
    struct {
        struct {
            uint32 xmtaddress;
            uint32 xmtdata;
            uint32 clockcontrolstatus;
            uint32 clockcontrolstatus_val;
        } base_regs;
        struct {
            uint32 resetctrl;
            uint32 itopoobb;
            uint32 ioctrl;
            uint32 ioctrl_resetseq_val[SSSR_D11_RESET_SEQ_STEPS];
        } wrapper_regs;
        uint32 sr_size;
    } mac_regs[MAX_NUM_D11CORES];
    struct {
        uint32 dig_sr_addr;
        uint32 dig_sr_size;
    } dig_mem_info;
} sssr_reg_info_v1_t;

#define MAX_NUM_D11_CORES_WITH_SCAN 3u

typedef struct sssr_reg_info_v2 {
    uint16 version;
    uint16 length; /* length of the structure validated at host */
    struct {
        struct {
            uint32 pmuintmask0;
            uint32 pmuintmask1;
            uint32 resreqtimer;
            uint32 macresreqtimer;
            uint32 macresreqtimer1;
            uint32 macresreqtimer2;
        } base_regs;
    } pmu_regs;
    struct {
        struct {
            uint32 intmask;
            uint32 powerctrl;
            uint32 clockcontrolstatus;
            uint32 powerctrl_mask;
        } base_regs;
    } chipcommon_regs;
    struct {
        struct {
            uint32 clockcontrolstatus;
            uint32 clockcontrolstatus_val;
        } base_regs;
        struct {
            uint32 resetctrl;
            uint32 extrsrcreq;
        } wrapper_regs;
    } arm_regs;
    struct {
        struct {
            uint32 ltrstate;
            uint32 clockcontrolstatus;
            uint32 clockcontrolstatus_val;
        } base_regs;
        struct {
            uint32 extrsrcreq;
        } wrapper_regs;
    } pcie_regs;
    struct {
        struct {
            uint32 xmtaddress;
            uint32 xmtdata;
            uint32 clockcontrolstatus;
            uint32 clockcontrolstatus_val;
        } base_regs;
        struct {
            uint32 resetctrl;
            uint32 extrsrcreq;
            uint32 ioctrl;
            uint32 ioctrl_resetseq_val[SSSR_D11_RESET_SEQ_STEPS];
        } wrapper_regs;
        uint32 sr_size;
    } mac_regs[MAX_NUM_D11_CORES_WITH_SCAN];
    struct {
        uint32 dig_sr_addr;
        uint32 dig_sr_size;
    } dig_mem_info;
} sssr_reg_info_v2_t;

#ifndef SSSR_REG_INFO_HAS_ALIAS
typedef sssr_reg_info_v0_t sssr_reg_info_t;
#define SSSR_REG_INFO_VER SSSR_REG_INFO_VER_0
#endif // endif

/* A wrapper structure for all versions of SSSR register information structures
 */
typedef union sssr_reg_info {
    sssr_reg_info_v0_t rev0;
    sssr_reg_info_v1_t rev1;
    sssr_reg_info_v2_t rev2;
} sssr_reg_info_cmn_t;

/* ADaptive Power Save(ADPS) structure definition */
#define WL_ADPS_IOV_MAJOR_VER 1
#define WL_ADPS_IOV_MINOR_VER 0
#define WL_ADPS_IOV_MAJOR_VER_SHIFT 8
#define WL_ADPS_IOV_VER                                                        \
    ((WL_ADPS_IOV_MAJOR_VER << WL_ADPS_IOV_MAJOR_VER_SHIFT) |                  \
     WL_ADPS_IOV_MINOR_VER)

#define ADPS_NUM_DIR 2
#define ADPS_RX 0
#define ADPS_TX 1

#define WL_ADPS_IOV_MODE 0x0001
#define WL_ADPS_IOV_RSSI 0x0002
#define WL_ADPS_IOV_DUMP 0x0003
#define WL_ADPS_IOV_DUMP_CLEAR 0x0004
#define WL_ADPS_IOV_SUSPEND 0x0005

#define ADPS_SUMMARY_STEP_NUM 2
#define ADPS_SUMMARY_STEP_LOW 0
#define ADPS_SUMMARY_STEP_HIGH 1

#define ADPS_SUB_IOV_VERSION_1 1
#define ADPS_SUB_IOV_VERSION_2 2

/* suspend/resume ADPS by wl/private command from host */
#define ADPS_RESUME 0u
#define ADPS_SUSPEND 1u

typedef struct wl_adps_params_v1 {
    uint16 version;
    uint16 length;
    uint8 band; /* band - 2G or 5G */
    uint8 mode; /* operation mode, default = 0 (ADPS disable) */
    uint16 padding;
} wl_adps_params_v1_t;

typedef struct wl_adps_rssi {
    int32 thresh_hi; /* rssi threshold to resume ADPS operation */
    int32 thresh_lo; /* rssi threshold to suspend ADPS operation */
} wl_adps_rssi_t;

typedef struct wl_adps_rssi_params_v1 {
    uint16 version;
    uint16 length;
    uint8 band;
    uint8 padding[3];
    wl_adps_rssi_t rssi;
} wl_adps_rssi_params_v1_t;

typedef struct adps_stat_elem {
    uint32 duration; /* each step duration time (mSec) */
    uint32 counts;   /* each step hit count number */
} adps_stat_elem_t;

typedef struct wl_adps_dump_summary_v1 {
    uint16 version;
    uint16 length;
    uint8 mode;         /* operation mode: On/Off */
    uint8 flags;        /* restrict flags */
    uint8 current_step; /* current step */
    uint8 padding;
    adps_stat_elem_t stat[ADPS_SUMMARY_STEP_NUM]; /* statistics */
} wl_adps_dump_summary_v1_t;

typedef struct wl_adps_dump_summary_v2 {
    uint16 version;
    uint16 length;
    uint8 mode;         /* operation mode: On/Off */
    uint8 current_step; /* current step */
    uint8 padding[2];
    uint32 flags;                                 /* restrict flags */
    adps_stat_elem_t stat[ADPS_SUMMARY_STEP_NUM]; /* statistics */
} wl_adps_dump_summary_v2_t;

typedef struct wl_adps_suspend_v1 {
    uint16 version;
    uint16 length;
    uint8 suspend; /* 1: suspend 0: resume */
    uint8 padding[3];
} wl_adps_suspend_v1_t;

typedef struct wlc_btc_2gchain_dis {
    uint16 ver;
    uint16 len;
    uint8 chain_dis;
    uint8 flag;
} wlc_btc_2gchain_dis_t;

/* TDLS structure definition */
#define WL_TDLS_T_VERSION_V1 1
typedef struct wl_tdls_dump_summary_v1 {
    uint16 version;
    uint16 length;               /* length of the entire structure */
    uint32 txsetupreq;           /* tdls setup req sent */
    uint32 txsetupresp;          /* tdls setup resp sent */
    uint32 txsetupcfm;           /* tdls setup confirm sent */
    uint32 txteardown;           /* tdls teardwon frames sent */
    uint32 txptireq;             /* tdls pti req frames sent */
    uint32 txptiresp;            /* tdls pti resp frames sent */
    uint32 txchswreq;            /* tdls chsw req frames sent */
    uint32 txchswresp;           /* tdls chsw resp frame sent */
    uint32 rxsetupreq;           /* tdls setup req rcvd */
    uint32 rxdsetupresp;         /* tdls setup resp rcvd */
    uint32 rxsetupcfm;           /* tdls setup confirm rcvd */
    uint32 rxteardown;           /* tdls teardown frames rcvd */
    uint32 rxptireq;             /* tdls pti req frames rcvd */
    uint32 rxptiresp;            /* tdls pti resp frames rcvd */
    uint32 rxchswreq;            /* tdls chsw req frames rcvd */
    uint32 rxchswresp;           /* tdls chsw resp frames rcvd */
    uint32 discard;              /* frames discarded due to full buffer */
    uint32 ubuffered;            /* frames buffered by TDLS txmod */
    uint32 buf_reinserted;       /* frames reinserted */
    uint32 idletime;             /* time since no traffic on tdls link */
    uint32 uptime;               /* time since  tdls link connected */
    uint32 tx_cnt;               /* frames txed over tdls link */
    uint32 rx_cnt;               /* frames rcvd over tdls link */
    uint32 blist_cnt;            /* number of tdls black list */
    uint32 scb_flags;            /* connected tdls scb flags */
    struct ether_addr peer_addr; /* connected peer addr */
    uint8 padding[2];
} wl_tdls_dump_summary_v1_t;

#define WLC_BTC_2GCHAIN_DIS_REASSOC 0x1
#define WLC_BTC_2GCHAIN_DIS_VER1 0x1
#define WLC_BTC_2GCHAIN_DIS_VER1_LEN 6

/* --- BTCX WiFi Protection (btc_wifi_prot iovar) --- */

/* Current iovar structure version: 1 */
#define WL_BTC_WIFI_PROT_VER_1 1

typedef struct wl_btc_wifi_prot_v1 {
    uint16 ver;   /* version */
    uint16 len;   /* total length */
    uint8 data[]; /* bcm_xtlv_t payload */
} wl_btc_wifi_prot_v1_t;

/* Xtlv tags (protection type) and data */
#define WL_BTC_WIFI_PROT_M1_M4 1
typedef struct wl_btc_wifi_prot_m1_m4 {
    uint32 enable;  /* enable/disable m1-m4 protection */
    uint32 timeout; /* maximum timeout in ms (0: default) */
} wl_btc_wifi_prot_m1_m4_t;

#define WL_BTC_WIFI_PROT_ENABLE 1
#define WL_BTC_WIFI_PROT__DISABLE 0

/* --- End BTCX WiFi Protection --- */

/* --- BTCX ULMU disable (btc_ulmu_config iovar) --- */

/* Version number */
#define WL_BTC_ULMU_CONFIG_VER_1 1
typedef struct wl_btc_ulmu_config_v1 {
    uint16 version;           /* btc_ulmu_config version */
    uint16 len;               /* Total length */
    uint32 ulmu_bt_task_bm;   /* BT Task bimtap for ULMU disable */
    uint32 ulmu_bt_period_th; /* BT period thresh for ULMU disable */
} wl_btc_ulmu_config_v1_t;

/* --- End BTCX ULMU config --- */

#define RPSNOA_IOV_MAJOR_VER 1
#define RPSNOA_IOV_MINOR_VER 1
#define RPSNOA_IOV_MAJOR_VER_SHIFT 8
#define RPSNOA_IOV_VERSION                                                     \
    ((RPSNOA_IOV_MAJOR_VER << RPSNOA_IOV_MAJOR_VER_SHIFT) |                    \
     RPSNOA_IOV_MINOR_VER)

enum wl_rpsnoa_cmd_ids {
    WL_RPSNOA_CMD_ENABLE = 1,
    WL_RPSNOA_CMD_STATUS,
    WL_RPSNOA_CMD_PARAMS,
    WL_RPSNOA_CMD_LAST
};

typedef struct rpsnoa_cmnhdr {
    uint16 ver; /* cmd structure version */
    uint16 len; /* cmd structure len */
    uint32 subcmd;
    uint32 cnt;
} rpsnoa_cmnhdr_t;

typedef struct rpsnoa_data {
    int16 band;
    int16 value;
} rpsnoa_data_t;

typedef struct rpsnoa_stats {
    int16 band;
    int16 state;
    uint32 sleep_dur;
    uint32 sleep_avail_dur;
    uint32 last_pps;
} rpsnoa_stats_t;

typedef struct rpsnoa_param {
    uint16 band;
    uint8 level;
    uint8 stas_assoc_check;
    uint32 pps;
    uint32 quiet_time;
} rpsnoa_param_t;

typedef struct rpsnoa_iovar {
    rpsnoa_cmnhdr_t hdr;
    rpsnoa_data_t data[1];
} rpsnoa_iovar_t;

typedef struct rpsnoa_iovar_status {
    rpsnoa_cmnhdr_t hdr;
    rpsnoa_stats_t stats[1];
} rpsnoa_iovar_status_t;

typedef struct rpsnoa_iovar_params {
    rpsnoa_cmnhdr_t hdr;
    rpsnoa_param_t param[1];
} rpsnoa_iovar_params_t;

/* Per-interface reportable stats types */
enum wl_ifstats_xtlv_id {
    /* global */
    WL_IFSTATS_XTLV_SLICE_INDEX = 1,
    WL_IFSTATS_XTLV_IF_INDEX = 2,
    WL_IFSTATS_XTLV_MAC_ADDR = 3,
    WL_IFSTATS_XTLV_REPORT_CMD = 4, /* Comes in an iovar */
    WL_IFSTATS_XTLV_BUS_PCIE = 5,
    WL_STATS_XTLV_BUS_PCIE_TX_HISTOGRAMS = 6,
    WL_STATS_XTLV_BUS_PCIE_TX_QUEUE_DEPTH = 7,
    /* history of blocks freed most recently */
    WL_STATS_XTLV_FBINFO_STATS = 8,

    /* Report data across all SCBs using ecounters */
    /* STA_info ecounters */
    WL_IFSTATS_XTLV_WL_STA_INFO_ECOUNTERS = 0x100,
    /* For AMPDU stat sub-types requested in a different format */
    /* these could be sum and report stats across slices. OR
     * report sub-types in pairs so host can sum and add.
     * Information sent here is across slices, therefore global
     */
    WL_IFSTATS_XTLV_TX_AMPDU_STATS = 0x101,
    WL_IFSTATS_XTLV_RX_AMPDU_STATS = 0x102,
    /* scb ecounter statistics */
    WL_IFSTATS_XTLV_SCB_ECOUNTERS = 0x103,
    /* Global NAN stats */
    WL_IFSTATS_XTLV_NAN_STATS = 0x104,
    WL_IFSTATS_XTLV_CHAN_STATS = 0x105,
    /* TDLS state */
    WL_IFSTATS_XTLV_IF_TDLS_STATE = 0x106,
    WL_IFSTATS_XTLV_KEY_PLUMB_INFO = 0x107,
    /* HE TX related stats */
    WL_IFSTATS_XTLV_HE_TXMU_STATS = 0x108,

    /* Per-slice information
     * Per-interface reporting could also include slice specific data
     */
    /* xtlv container for reporting */
    WL_IFSTATS_XTLV_WL_SLICE = 0x301,
    /* Per-slice AMPDU stats */
    WL_IFSTATS_XTLV_WL_SLICE_TX_AMPDU_DUMP = 0x302,
    WL_IFSTATS_XTLV_WL_SLICE_RX_AMPDU_DUMP = 0x303,
    /* Per-slice BTCOEX stats */
    WL_IFSTATS_XTLV_WL_SLICE_BTCOEX = 0x304,
    /* V11_WLCNTRS used in ecounters */
    WL_IFSTATS_XTLV_WL_SLICE_V11_WLCNTRS = 0x305,
    /* V30_WLCNTRS Used in ecounters */
    WL_IFSTATS_XTLV_WL_SLICE_V30_WLCNTRS = 0x306,
    /* phy,ucode,scan pwrstats */
    WL_IFSTATS_XTLV_WL_SLICE_PWRSTATS_PHY = 0x307,
    WL_IFSTATS_XTLV_WL_SLICE_PWRSTATS_SCAN = 0x308,
    WL_IFSTATS_XTLV_WL_SLICE_PWRSTATS_WAKE_V2 = 0x309,
    /* Per-slice LTECOEX stats */
    WL_IFSTATS_XTLV_WL_SLICE_LTECOEX = 0x30A,
    /* TVPM ecounters */
    WL_IFSTATS_XTLV_WL_SLICE_TVPM = 0x30B,
    /* TDMTX ecounters */
    WL_IFSTATS_XTLV_WL_SLICE_TDMTX = 0x30C,
    /* Slice specific state capture in periodic fasion */
    WL_SLICESTATS_XTLV_PERIODIC_STATE = 0x30D,
    WL_SLICESTATS_XTLV_HIST_TX_STATS = 0x30E,
    WL_SLICESTATS_XTLV_HIST_RX_STATS = 0x30F,
    /* TX histograms */
    WL_STATS_XTLV_WL_SLICE_TX_HISTOGRAMS = 0x310,
    /* TX queue depth */
    WL_STATS_XTLV_WL_SLICE_TX_QUEUE_DEPTH = 0x311,
    /* Latency instrumentation debug */
    WL_STATS_XTLV_WL_QUEUE_STOP = 0x312,
    /* Beamforming counters */
    WL_IFSTATS_XTLV_WL_SLICE_TXBF = 0x313,
    /* Per-slice BTCOEX task duration stats */
    WL_IFSTATS_XTLV_WL_SLICE_BTCOEX_TSKDUR_STATS = 0x314,
    /* Per-interface */
    /* XTLV container for reporting */
    WL_IFSTATS_XTLV_IF = 0x501,
    /* Generic stats applicable to all IFs */
    WL_IFSTATS_XTLV_GENERIC = 0x502,
    /* Infra specific */
    WL_IFSTATS_XTLV_INFRA_SPECIFIC = 0x503,
    /* MGT counters infra and softAP */
    WL_IFSTATS_XTLV_MGT_CNT = 0x504,
    /* AMPDU stats on per-IF */
    WL_IFSTATS_XTLV_AMPDU_DUMP = 0x505,
    WL_IFSTATS_XTLV_IF_SPECIFIC = 0x506,
    WL_IFSTATS_XTLV_IF_LQM = 0x508,
    /* Interface specific state capture in periodic fashion */
    WL_IFSTATS_XTLV_IF_PERIODIC_STATE = 0x509,
    /* Event statistics on per-IF */
    WL_IFSTATS_XTLV_IF_EVENT_STATS = 0x50A,
    /* Infra HE specific */
    WL_IFSTATS_XTLV_INFRA_SPECIFIC_HE = 0x50B,
    /* Roam statistics */
    WL_IFSTATS_XTLV_ROAM_STATS_PERIODIC = 0x50C,
    WL_IFSTATS_XTLV_ROAM_STATS_EVENT = 0x50D,
    /* ecounters for nan */
    /* nan slot stats */
    WL_IFSTATS_XTLV_NAN_SLOT_STATS = 0x601,
    /* Ecounters for NDP session status */
    WL_STATS_XTLV_NDP_SESSION_STATUS = 0x602,
    /* NAN disc frame status ecounters */
    WL_STATS_XTLV_NAN_DISC_FRM_STATUS = 0x603
};

/* current version of wl_stats_report_t structure for request */
#define WL_STATS_REPORT_REQUEST_VERSION_V2 2

/* current version of wl_stats_report_t structure for response */
#define WL_STATS_REPORT_RESPONSE_VERSION_V2 2

/** Top structure of if_counters IOVar buffer */
typedef struct wl_stats_report {
    uint16 version; /**< see version definitions above */
    uint16 length;  /**< length of data including all paddings. */
    uint8 data[];   /**< variable length payload:
                     * 1 or more bcm_xtlv_t type of tuples.
                     * each tuple is padded to multiple of 4 bytes.
                     * 'length' field of this structure includes all paddings.
                     */
} wl_stats_report_t;

/* interface specific mgt count */
#define WL_MGT_STATS_VERSION_V1 1
/* Associated stats type: WL_IFSTATS_MGT_CNT */
typedef struct {
    uint16 version;
    uint16 length;

    /* detailed control/management frames */
    uint32 txnull;
    uint32 rxnull;
    uint32 txqosnull;
    uint32 rxqosnull;
    uint32 txassocreq;
    uint32 rxassocreq;
    uint32 txreassocreq;
    uint32 rxreassocreq;
    uint32 txdisassoc;
    uint32 rxdisassoc;
    uint32 txassocrsp;
    uint32 rxassocrsp;
    uint32 txreassocrsp;
    uint32 rxreassocrsp;
    uint32 txauth;
    uint32 rxauth;
    uint32 txdeauth;
    uint32 rxdeauth;
    uint32 txprobereq;
    uint32 rxprobereq;
    uint32 txprobersp;
    uint32 rxprobersp;
    uint32 txaction;
    uint32 rxaction;
    uint32 txpspoll;
    uint32 rxpspoll;
} wl_if_mgt_stats_t;

#define WL_INFRA_STATS_VERSION_V1 1
/* Associated stats type: WL_IFSTATS_INFRA_SPECIFIC */
typedef struct wl_infra_stats {
    uint16 version; /**< version of the structure */
    uint16 length;
    uint32 rxbeaconmbss;
    uint32 tbtt;
} wl_if_infra_stats_t;

#define WL_INFRA_STATS_HE_VERSION_V1 (1u)
/* Associated stats type: WL_IFSTATS_INFRA_SPECIFIC_HE */
typedef struct wl_infra_stats_he {
    uint16 version; /**< version of the structure */
    uint16 length;
    uint32 PAD; /**< Explicit padding */

    /* DL SU MPDUs and total number of bytes */
    uint64 dlsu_mpdudata;
    uint64 dlsu_mpdu_bytes;

    /* DL MUMIMO MPDUs and total number of bytes  */
    uint64 dlmumimo_mpdudata;
    uint64 dlmumimo_mpdu_bytes;

    /* DL OFDMA MPDUs and total number of bytes  */
    uint64 dlofdma_mpdudata;
    uint64 dlofdma_mpdu_bytes;

    /* UL SU MPDUs and total number of bytes  */
    uint64 ulsu_mpdudata;
    uint64 ulsu_mpdu_bytes;

    /* ULOFDMA MPSUs and total number of bytes  */
    uint64 ulofdma_mpdudata;
    uint64 ulofdma_mpdu_bytes;
} wl_if_infra_stats_he_t;

#define LTECOEX_STATS_VER 1

typedef struct wlc_ltecoex_stats {
    uint16 version;    /**< WL_IFSTATS_XTLV_WL_SLICE_LTECOEX */
    uint16 len;        /* Length of  wl_ltecx_stats structure */
    uint8 slice_index; /* Slice unit of  wl_ltecx_stats structure */
    uint8 pad[3];      /* Padding */
    /* LTE noise based eCounters Bins
     cumulative the wl_cnt_wlc_t and  wl_ctl_mgt_cnt_t
     counter information based on LTE Coex interference level
     */
    uint32 txframe_no_LTE;       /* txframe counter in no LTE Coex case */
    uint32 rxframe_no_LTE;       /* rxframe counter in no LTE Coex case */
    uint32 rxrtry_no_LTE;        /* rxrtry counter in no LTE Coex case */
    uint32 txretrans_no_LTE;     /* txretrans counter in no LTE Coex case */
    uint32 txnocts_no_LTE;       /* txnocts counter in no LTE Coex case */
    uint32 txrts_no_LTE;         /* txrts counter in no LTE Coex case */
    uint32 txdeauth_no_LTE;      /* txdeauth counter in no LTE Coex case */
    uint32 txassocreq_no_LTE;    /* txassocreq counter in no LTE Coex case */
    uint32 txassocrsp_no_LTE;    /* txassocrsp counter in no LTE Coex case */
    uint32 txreassocreq_no_LTE;  /* txreassocreq counter in no LTE Coex case */
    uint32 txreassocrsp_no_LTE;  /* txreassocrsp counter in no LTE Coex case */
    uint32 txframe_light_LTE;    /* txframe counter in light LTE Coex case */
    uint32 txretrans_light_LTE;  /* txretrans counter in light LTE Coex case */
    uint32 rxframe_light_LTE;    /* rxframe counter in light LTE Coex case */
    uint32 rxrtry_light_LTE;     /* rxrtry counter in light LTE Coex case */
    uint32 txnocts_light_LTE;    /* txnocts counter in light LTE Coex case */
    uint32 txrts_light_LTE;      /* txrts counter in light LTE Coex case */
    uint32 txdeauth_light_LTE;   /* txdeauth counter in light LTE Coex case */
    uint32 txassocreq_light_LTE; /* txassocreq counter in light LTE Coex case */
    uint32 txassocrsp_light_LTE; /* txassocrsp counter in light LTE Coex case */
    uint32 txreassocreq_light_LTE; /* txreassocreq counter in light LTE Coex
                                      case */
    uint32 txreassocrsp_light_LTE; /* txreassocrsp counter in light LTE Coex
                                      case */
    uint32 txframe_heavy_LTE;      /* txframe counter in heavy LTE Coex case */
    uint32 txretrans_heavy_LTE;  /* txretrans counter in heavy LTE Coex case */
    uint32 rxframe_heavy_LTE;    /* rxframe counter in heavy LTE Coex case */
    uint32 rxrtry_heavy_LTE;     /* rxrtry counter in heavy LTE Coex case */
    uint32 txnocts_heavy_LTE;    /* txnocts counter in heavy LTE Coex case */
    uint32 txrts_heavy_LTE;      /* txrts counter in heavy LTE Coex case */
    uint32 txdeauth_heavy_LTE;   /* txdeauth counter in heavy LTE Coex case */
    uint32 txassocreq_heavy_LTE; /* txassocreq counter in heavy LTE Coex case */
    uint32 txassocrsp_heavy_LTE; /* txassocrsp counter in heavy LTE Coex case */
    uint32 txreassocreq_heavy_LTE; /* txreassocreq counter in heavy LTE Coex
                                      case */
    uint32 txreassocrsp_heavy_LTE; /* txreassocrsp counter in heavy LTE Coex
                                      case */

    /* LTE specific ecounters */
    uint16 type4_txinhi_dur;  /* Duration of tx inhibit(in ms) due to Type4 */
    uint16 type4_nonzero_cnt; /* Counts of none zero Type4 msg */
    uint16 type4_timeout_cnt; /* Counts of Type4 timeout */
    uint16 rx_pri_dur;        /* Duration of wlan_rx_pri assertions */
    uint16 rx_pri_cnt;        /* Count of wlan_rx_pri assertions */
    uint16 type6_dur;         /* duration of LTE Tx power limiting assertions */
    uint16 type6_cnt;         /* Count of LTE Tx power limiting assertions */
    uint16 ts_prot_frm_cnt; /* count of WLAN protection frames triggered by LTE
                               coex */
    uint16 ts_gr_cnt; /* count of intervals granted to WLAN in timesharing */
    uint16 ts_gr_dur; /* duration granted to WLAN in timesharing */
} wlc_ltecoex_stats_t;

#define CSA_EVT_CSA_RXED (1 << 0)
#define CSA_EVT_CSA_TIMEOUT (1 << 1)
#define CSA_EVT_FROM_INFRA (1 << 2)
typedef struct csa_event_data {
    chanspec_t chan_old;
    dot11_ext_csa_ie_t ecsa;
    dot11_mesh_csp_ie_t mcsp;
    dot11_wide_bw_chan_switch_ie_t wbcs;
    uint8 flags;
    uint8 pad[3];
} csa_event_data_t;

/* ifdef (WL_ASSOC_BCN_RPT) */
enum wl_bcn_report_cmd_id {
    WL_BCN_RPT_CMD_VER = 0,
    WL_BCN_RPT_CMD_CONFIG = 1,
    WL_BCN_RPT_CMD_VENDOR_IE = 2,
    WL_BCN_RPT_CMD_LAST
};

/* beacon report specific macros */
#define WL_BCN_RPT_CCX_IE_OVERRIDE (1u << 0)

/* beacon report specific macros */
#define WL_BCN_RPT_ASSOC_SCAN_UNSOLICITED_MODE (1u << 1)
#define WL_BCN_RPT_ASSOC_SCAN_SOLICITED_MODE (1u << 2)
#define WL_BCN_RPT_ASSOC_SCAN_MODE_SHIFT (1)
#define WL_BCN_RPT_ASSOC_SCAN_MODE_MASK                                        \
    (WL_BCN_RPT_ASSOC_SCAN_UNSOLICITED_MODE |                                  \
     WL_BCN_RPT_ASSOC_SCAN_SOLICITED_MODE)
#define WL_BCN_RPT_ASSOC_SCAN_MODE_MAX                                         \
    (WL_BCN_RPT_ASSOC_SCAN_MODE_MASK >> WL_BCN_RPT_ASSOC_SCAN_MODE_SHIFT)
/* beacon report mode specific macro */
#define WL_BCN_RPT_ASSOC_SCAN_MODE_DEFAULT                                     \
    WL_BCN_RPT_ASSOC_SCAN_UNSOLICITED_MODE

/* beacon report timeout config specific macros */
#define WL_BCN_RPT_ASSOC_SCAN_CACHE_TIMEOUT_DEFAULT (120000)
#define WL_BCN_RPT_ASSOC_SCAN_CACHE_TIMEOUT_MIN (60000)
#define WL_BCN_RPT_ASSOC_SCAN_CACHE_TIMEOUT_MAX (0xFFFFFFFF)

/* beacon report cache count specific macros */
#define WL_BCN_RPT_ASSOC_SCAN_CACHE_COUNT_MIN (0)
#define WL_BCN_RPT_ASSOC_SCAN_CACHE_COUNT_MAX (8)
#define WL_BCN_RPT_ASSOC_SCAN_CACHE_COUNT_DEFAULT                              \
    (WL_BCN_RPT_ASSOC_SCAN_CACHE_COUNT_MAX)

#define WL_BCN_REPORT_CMD_VERSION 1
struct wl_bcn_report_cfg {
    uint32 flags; /**< Flags that defines the operation/setting information */
    uint32 scan_cache_timeout;    /**< scan cache timeout value in millisec */
    uint32 scan_cache_timer_pend; /**< Read only pending time for timer expiry
                                     in millisec */
    uint8 scan_cache_cnt;         /**< scan cache count */
};

/* endif (WL_ASSOC_BCN_RPT) */

/* Thermal, Voltage, and Power Mitigation */
#define TVPM_REQ_VERSION_1 1
#define TVPM_REQ_CURRENT_VERSION TVPM_REQ_VERSION_1

/* tvpm iovar data */
typedef struct {
    uint16 version; /* TVPM request version */
    uint16 length;  /* Length of the entire structure */

    uint16 req_type; /* Request type: wl_tvpm_req_type_t */
    uint16 req_len;  /* Length of the following value */
    uint8 value[];   /* Variable length data depending on req_type */
} wl_tvpm_req_t;

/* tvpm iovar request types */
typedef enum {
    WL_TVPM_REQ_CLTM_INDEX, /* req_value: uint32, range 1...100 */
    WL_TVPM_REQ_PPM_INDEX,  /* req_value: uint32, range 1...100 */
    WL_TVPM_REQ_ENABLE,     /* req_value: uint32, range 0...1 */
    WL_TVPM_REQ_STATUS,     /* req_value: none */
    WL_TVPM_REQ_PERIOD,     /* req_value: int32, range {-1,1-10} */
    WL_TVPM_REQ_MAX
} wl_tvpm_req_type_t;

/* structure for data returned by request type WL_TVPM_REQ_STATUS */
typedef struct wl_tvpm_status {
    uint16 enable;            /* whether TVPM is enabled */
    uint16 tx_dutycycle;      /* a percentage: 1-100 */
    int16 tx_power_backoff;   /* 0...-6 */
    uint16 num_active_chains; /* 1...3 */
    int16 temp;               /* local temperature in degrees C */
    uint8 vbat;               /* local voltage in units of 0.1V */
    uint8 pad;
} wl_tvpm_status_t;

/* TVPM ecounters */
typedef struct wl_tvpm_ecounters_t {
    uint16 version; /* version field */
    uint16 length;  /* byte length in wl_tvpm_ecounters_t starting at version */
    uint16 tx_dutycycle;      /* a percentage: 1-100 */
    int16 tx_power_backoff;   /* 0...-6 */
    uint16 num_active_chains; /* 1...3 */
    int16 temp;               /* local temperature */
    uint8 vbat;               /* local voltage */
    uint8 cltm;               /* CLTM index  */
    uint8 ppm;                /* PPM index  */
    uint8 pad;                /* pad to align to uint16 */
} wl_tvpm_ecounters_t;

#define TDMTX_ECOUNTERS_VERSION_V1 1
#define TDMTX_ECOUNTERS_VERSION_V2 2

/* TDMTX ecounters */
typedef struct wl_tdmtx_ecounters_v1 {
    uint16 version; /* version field */
    uint16 length; /* byte length in wl_tdmtx_ecounters_t starting at version */
    uint32 txa_on; /* TXA on requests */
    uint32 txa_tmcnt;  /* Total number of TXA timeout */
    uint32 por_on;     /* TXA POR requests */
    uint32 txpuen;     /* Path enable requests */
    uint32 txpudis;    /* Total number of times Tx path is muted on the slice */
    uint32 txpri_on;   /* Total number of times Tx priority was obtained by the
                          slice */
    uint32 txdefer;    /* Total number of times Tx was deferred by the slice */
    uint32 txmute;     /* Total number of times active Tx muted on the slice */
    uint32 actpwrboff; /* Total number of times TX power is backed off by the
                          slice */
    uint32 txa_dur;    /* Total time txa on */
    uint32 txpri_dur;  /* Total time TXPri */
    uint32 txdefer_dur; /* Total time txdefer */
} wl_tdmtx_ecounters_v1_t;

/* TDMTX ecounters for version 2 */
typedef struct wl_tdmtx_ecounters_v2 {
    uint16 version; /* version field */
    uint16 length; /* byte length in wl_tdmtx_ecounters_t starting at version */
    uint32 txa_on; /* TXA on requests */
    uint32 txa_tmcnt;  /* Total number of TXA timeout */
    uint32 porhi_on;   /* TXA PORHI requests */
    uint32 porlo_on;   /* TXA PORLO requests */
    uint32 txpuen;     /* Path enable requests */
    uint32 txpudis;    /* Total number of times Tx path is muted on the slice */
    uint32 txpri_on;   /* Total number of times Tx priority was obtained by the
                          slice */
    uint32 txdefer;    /* Total number of times Tx was deferred by the slice */
    uint32 txmute;     /* Total number of times active Tx muted on the slice */
    uint32 actpwrboff; /* Total number of times TX power is backed off by the
                          slice */
    uint32 txa_dur;    /* Total time txa on */
    uint32 txpri_dur;  /* Total time TXPri */
    uint32 txdefer_dur; /* Total time txdefer */
} wl_tdmtx_ecounters_v2_t;

/* Note: if this struct is changing update wl_scb_ecounters_vX_t version,
 * as this struct is sent as payload in wl_scb_ecounters_vX_t
 */
typedef struct wlc_scb_stats_v1 {
    uint32 tx_pkts;             /* num of packets transmitted (ucast) */
    uint32 tx_failures;         /* num of packets failed */
    uint32 rx_ucast_pkts;       /* num of unicast packets received */
    uint32 rx_mcast_pkts;       /* num of multicast packets received */
    uint32 tx_rate;             /* Rate of last successful tx frame */
    uint32 rx_rate;             /* Rate of last successful rx frame */
    uint32 rx_decrypt_succeeds; /* num of packets decrypted successfully */
    uint32 rx_decrypt_failures; /* num of packets decrypted unsuccessfully */
    uint32 tx_mcast_pkts;       /* num of mcast pkts txed */
    uint64 tx_ucast_bytes;      /* data bytes txed (ucast) */
    uint64 tx_mcast_bytes;      /* data bytes txed (mcast) */
    uint64 rx_ucast_bytes;      /* data bytes recvd ucast */
    uint64 rx_mcast_bytes;      /* data bytes recvd mcast */
    uint32 tx_pkts_retried;     /* num of packets where a retry was necessary */
    uint32 tx_pkts_retry_exhausted; /* num of packets where a retry was
                                       exhausted */
    uint32 tx_rate_mgmt;       /* Rate of last transmitted management frame */
    uint32 tx_rate_fallback;   /* last used lowest fallback TX rate */
    uint32 rx_pkts_retried;    /* # rx with retry bit set */
    uint32 tx_pkts_total;      /* total num of tx pkts */
    uint32 tx_pkts_retries;    /* total num of tx retries */
    uint32 tx_pkts_fw_total;   /* total num of tx pkts generated from fw */
    uint32 tx_pkts_fw_retries; /* num of fw generated tx pkts retried */
    uint32 tx_pkts_fw_retry_exhausted; /* num of fw generated tx pkts where
                                          retry exhausted */
} wlc_scb_stats_v1_t;

/* ecounters for scb stats
 * XTLV ID: WL_IFSTATS_XTLV_SCB_ECOUNTERS
 */

#define WL_SCB_ECOUNTERS_VERSION_1 1
#define WL_SCB_ECOUNTERS_VERSION_2 2

typedef struct wl_scb_ecounters_v1 {
    uint16 version;       /* version field */
    uint16 length;        /* struct length starting from version */
    uint32 chanspec;      /* current chanspec where scb is operating */
    struct ether_addr ea; /* peer ndi or sta ea */
    uint8 peer_type;      /* peer type */
    uint8 pad;

    /* scb tx and rx stats */
    wlc_scb_stats_v1_t stats;
} wl_scb_ecounters_v1_t;

typedef struct wl_scb_ecounters_v2 {
    uint16 version;       /* version field */
    uint16 length;        /* struct length starting from version */
    uint32 chanspec;      /* current chanspec where scb is operating */
    struct ether_addr ea; /* peer ndi or sta ea */
    uint8 peer_type;      /* peer type */
    uint8 pad;

    /* scb tx and rx stats */
    uint16 tx_rate;          /* Rate(in Mbps) of last successful tx frame */
    uint16 rx_rate;          /* Rate(in Mbps) of last successful rx frame */
    uint16 tx_rate_fallback; /* last used lowest fallback TX rate(in Mbps) */
    uint16 pad1;
    uint32 rx_decrypt_succeeds; /* num of packets decrypted successfully */
    uint32 rx_decrypt_failures; /* num of packets decrypted unsuccessfully */
    uint32 rx_pkts_retried;     /* # rx with retry bit set */
    uint32 tx_pkts_retries;     /* total num of tx retries */
    uint32 tx_failures;         /* num of packets failed */
    uint32 tx_pkts_total;       /* total num of tx pkts */
    int8 rssi[WL_STA_ANT_MAX];  /* average rssi per antenna of data frames */
} wl_scb_ecounters_v2_t;

/* ecounters for nan slot stats
 * XTLV ID: WL_IFSTATS_XTLV_NAN_SLOT_STATS
 */

#define WL_NAN_SLOT_ECOUNTERS_VERSION_1 1
#define WL_NAN_SLOT_ECOUNTERS_VERSION_2 2

typedef struct wl_nan_slot_ecounters_v1 {
    uint16 version;             /* version field */
    uint16 length;              /* struct length starting from version */
    uint32 chan[NAN_MAX_BANDS]; /* cur nan slot chanspec of both bands */
    uint16 cur_slot_idx;        /* cur nan slot index */
    uint16 pad;
    nan_sched_stats_t sched; /* sched stats */
    wl_nan_mac_stats_t mac;  /* mac stats */
} wl_nan_slot_ecounters_v1_t;

typedef struct wl_nan_slot_ecounters_v2 {
    uint16 version;             /* version field */
    uint16 length;              /* struct length starting from version */
    uint32 chan[NAN_MAX_BANDS]; /* cur nan slot chanspec of both bands */
    uint16 cur_slot_idx;        /* cur nan slot index */
    uint16 pad;
    nan_sched_stats_t sched; /* sched stats */
    wl_nan_mac_stats_t mac;  /* mac stats */
    /* for v2 */
    uint16 bcn_rx_drop_rssi; /* Beacon received but ignored due to weak rssi */
    uint16 bcn_rx_drop_rssi_5g; /* 5G Beacon received but ignored due to weak
                                   rssi */
    uint16 cnt_rssi_close;      /* cnt of beacon rssi > rssi_close received */
    uint16 cnt_rssi_close_5g; /* cnt of 5G beacon rssi > rssi_close received */
    uint16 cnt_rssi_mid;      /* cnt of beacon rssi > rssi_middle received */
    uint16 cnt_rssi_mid_5g;   /* cnt of 5G beacon rssi > rssi_middle received */
    uint16 bcn_txfail;        /* Beacon sending failure count */
    uint16 bcn_txfail_5g;     /* sending 5G beacon failure count */
} wl_nan_slot_ecounters_v2_t;

/* WL_STATS_XTLV_NDP_SESSION_STATUS for ecounters */
#define WL_NAN_SESSION_STATUS_EC_VERSION_1 1
typedef struct wl_nan_ndp_session_status_v1_s {
    uint16 version;              /* version field */
    uint16 length;               /* struct length starting from version */
    uint8 role;                  /* Role of NAN device */
    uint8 ndp_id;                /* local NDP ID */
    uint8 state;                 /* NDP state */
    uint8 nan_sec_csid;          /* security csid */
    struct ether_addr lndi_addr; /* Local NDI addr */
    struct ether_addr pnmi_addr; /* Peer NMI addr */
    struct ether_addr pndi_addr; /* Peer NDI addr */
    uint8 dpe_state; /* DPE state to know where timeout/dpend has come */
    uint8 pad;
} wl_nan_ndp_session_status_v1_t;

/* WL_STATS_XTLV_NAN_DISC_FRM_STATUS for ecounters */
#define WL_NAN_DISC_FRM_STATUS_EC_VERSION_1 1
typedef struct wl_nan_disc_frame_status_v1_s {
    uint16 version;    /* version field */
    uint16 length;     /* struct length starting from version */
    uint8 type;        /* wl_nan_frame_type_t */
    uint8 status;      /* For TX status, success or failure */
    uint8 reason_code; /* to identify reason when status is failure */
    uint8 inst_id;     /* Publish or subscribe instance id */
    uint8 req_id;      /* Requestor instance id */
    uint8 pad;
    uint16 token; /* seq num to keep track of pkts sent by host */
} wl_nan_disc_frame_status_v1_t;
/*
 * BT log definitions
 */

/* common iovar struct */
typedef struct wl_btl {
    uint16 subcmd_id; /* subcommand id */
    uint16 len;       /* total length of data[] */
    uint8 data[2];    /* subcommand data, variable length */
} wl_btl_t;

/* subcommand ids */
#define WL_BTL_SUBCMD_ENABLE 0 /* enable/disable logging */
#define WL_BTL_SUBCMD_STATS 1  /* statistics */

/* WL_BTL_SUBCMD_ENABLE data */
typedef struct wl_blt_enable {
    uint8 enable; /* 1 - enable, 0 - disable */
    uint8 pad[3]; /* 4-byte struct alignment */
} wl_btl_enable_t;

/* WL_BTL_SUBCMD_STATS data */
typedef struct wl_blt_stats {
    uint32 bt_interrupt;                 /* num BT interrupts */
    uint32 config_req;                   /* num CONFIG_REQ */
    uint32 config_res_success;           /* num CONFIG_RES successful */
    uint32 config_res_fail;              /* num CONFIG_RES failed */
    uint32 log_req;                      /* num LOG_REQ */
    uint32 log_res_success;              /* num LOG_RES successful */
    uint32 log_res_fail;                 /* num LOG_RES failed */
    uint32 indirect_read_fail;           /* num indirect read fail */
    uint32 indirect_write_fail;          /* num indirect write fail */
    uint32 dma_fail;                     /* num DMA failed */
    uint32 min_log_req_duration;         /* min log request duration in usec */
    uint32 max_log_req_duration;         /* max log request duration in usec */
    uint16 mem_dump_req;                 /* num mem dump requests */
    uint16 mem_dump_success;             /* num mem dumps successful */
    uint16 mem_dump_fail;                /* num mem dumps failed */
    uint16 bt_wake_success;              /* num BT wakes successful */
    uint16 bt_wake_fail;                 /* num BT wakes failed */
    uint16 mem_dump_req_interrupt;       /* num MEM_DUMP_REQ interrupt */
    uint16 mem_dump_res_interrupt;       /* num MEM_DUMP_RES interrupt */
    uint16 mem_dump_res_timeout;         /* num MEM_DUMP_RES timeout */
    uint16 mem_dump_proc_no_bt_ready;    /* num proceed if no BT ready */
    uint16 mem_dump_proc_no_bt_response; /* num proceed if no BT response */
    uint16 mem_dump_proc_no_bt_clock;    /* num proceed if no BT clock */
    uint16 pad;                          /* alignment */
    uint32 last_failed_region;           /* start addr of last failed region */
    uint32 min_mem_dump_duration;        /* min mem dump duration in usec */
    uint32 max_mem_dump_duration;        /* max mem dump duration in usec */
} wl_btl_stats_t;

/* IOV AWD DATA */

/* AWD DATA structures */
typedef struct {
    uint8 version;  /* Extended trap version info */
    uint8 reserved; /* currently unused */
    uint16 length;  /* Length of data excluding this header */
    uint8 data[];   /* this data is TLV of tags */
} awd_data_v1_t;

/* AWD TAG structure */
typedef struct {
    uint8 tagid;  /* one of AWD DATA TAGs numbers */
    uint8 length; /* the data size represented by this field must be aligned to
                     32 bits */
    uint8 data[]; /* variable size, defined by length field */
} awd_tag_data_v1_t;

/* IOV ETD DATA */

/* ETD DATA structures */
typedef struct {
    uint8 version;  /* Extended trap version info */
    uint8 reserved; /* currently unused */
    uint16 length;  /* Length of data excluding this header */
    uint8 data[];   /* this data is TLV of tags */
} etd_data_v1_t;

/* ETD TAG structure */
typedef struct {
    uint8 tagid;  /* one of ETD DATA TAGs numbers */
    uint8 length; /* the data size represented by this field must be aligned to
                     32 bits */
    uint8 data[]; /* variable size, defined by length field */
} etd_tag_data_v1_t;

/* ETD information structures associated with ETD_DATA_Tags */
/* ETD_JOIN_CLASSIFICATION_INFO 10 */
typedef struct {
    uint8 assoc_type;         /* assoc type */
    uint8 assoc_state;        /* current state of assoc state machine */
    uint8 wpa_state;          /* wpa->state */
    uint8 wsec_portopen;      /* shows if security port is open */
    uint8 total_attempts_num; /* total number of join attempts (bss_retries) */
    uint8 num_of_targets;     /* up to 3, in current design */
    uint8 reserved[2];        /* padding to get 32 bits alignment */
    uint32 wsec;              /* bsscfg->wsec */
    uint32 wpa_auth;          /* bsscfg->WPA_auth */
    uint32
        time_to_join; /* time duration to process WLC_SET_SSID request (ms) */
} join_classification_info_v1_t;

/* ETD_JOIN_TARGET_CLASSIFICATION_INFO 11 */
typedef struct {
    int8 rssi;             /* RSSI on current channel */
    uint8 cca;             /* CCA on current channel */
    uint8 channel;         /* current channel */
    uint8 num_of_attempts; /* (bss_retries) up to 5 */
    uint8 oui[3];          /* the first three octets of the AP's address */
    uint8 reserved;        /* padding to get 32 bits alignment */
    uint32 time_duration;  /* time duration of current attempt (ms) */
} join_target_classification_info_v1_t;

/* ETD_ASSOC_STATE 12 */
typedef struct {
    uint8 assoc_state; /* assoc type */
    uint8 reserved[3]; /* padding to get 32 bits alignment */
} join_assoc_state_v1_t;

/* ETD_CHANNEL 13 tag */
typedef struct {
    uint8 channel;     /* last attempt channel */
    uint8 reserved[3]; /* padding to get 32 bits alignment */
} join_channel_v1_t;

/* ETD_TOTAL_NUM_OF_JOIN_ATTEMPTS 14 */
typedef struct {
    uint8 total_attempts_num; /* total number of join attempts (bss_retries) */
    uint8 reserved[3];        /* padding to get 32 bits alignment */
} join_total_attempts_num_v1_t;

/* IOV_ROAM_CACHE structures */

enum wl_rmc_report_cmd_id {
    WL_RMC_RPT_CMD_VER = 0,
    WL_RMC_RPT_CMD_DATA = 1,
    WL_RMC_RPT_CMD_LAST
};

enum wl_rmc_report_xtlv_id {
    WL_RMC_RPT_XTLV_VER = 0x0,
    WL_RMC_RPT_XTLV_BSS_INFO = 0x1,
    WL_RMC_RPT_XTLV_CANDIDATE_INFO = 0x2
};

/* WL_RMC_RPT_XTLV_BSS_INFO */
typedef struct {
    int16 rssi;            /* current BSS RSSI */
    uint8 reason;          /* reason code for last full scan */
    uint8 status;          /* last status code for not roaming */
    uint32 fullscan_count; /* number of full scans performed on current BSS */
    uint32 time_full_scan; /* delta time (in ms) between cur time and full scan
                              timestamp */
} rmc_bss_info_v1_t;

/* WL_RMC_RPT_XTLV_CANDIDATE_INFO */
typedef struct {
    int16 rssi;            /* last seen rssi */
    uint16 ctl_channel;    /* channel */
    uint32 time_last_seen; /* delta time (in ms) between cur time and last seen
                              timestamp */
    uint16 bss_load;       /* BSS load */
    uint8 bssid[6];        /* padding to get 32 bits alignment */
} rmc_candidate_info_v1_t;

#define WL_FILTER_IE_VERSION 1 /* deprecated */
enum wl_filter_ie_options {
    WL_FILTER_IE_CLEAR = 0,     /* allow  element id in packet.For suboption */
    WL_FILTER_IE_SET = 1,       /* filter element id in packet.For suboption */
    WL_FILTER_IE_LIST = 2,      /* list  element ID's.Set as option */
    WL_FILTER_IE_CLEAR_ALL = 3, /* clear all the element.Set as option */
    WL_FILTER_IE_CHECK_SUB_OPTION =
        4 /* check for suboptions.Set only as option */
};

typedef struct wl_filter_ie_tlv {
    uint16 id;    /* elelment id [ + ext id ] */
    uint16 len;   /* sub option length + pattern length */
    uint8 data[]; /* sub option + pattern matching(OUI,type,sub-type) */
} wl_filter_ie_tlv_t;

#define WL_FILTER_IE_VERSION_1 1 /* the latest version */
typedef struct wl_filter_ie_iov_v1 {
    uint16 version;      /* Structure version */
    uint16 len;          /* Total length of the structure */
    uint16 fixed_length; /* Total length of fixed fields */
    uint8 option;        /* Filter action - check for suboption */
    uint8 pad[1];        /* Align to 4 bytes */
    uint32 pktflag;      /* frame type - FC_XXXX */
    uint8 tlvs[];        /* variable data (zero in for list ,clearall) */
} wl_filter_ie_iov_v1_t;

/* Event aggregation config */
#define EVENT_AGGR_CFG_VERSION 1
#define EVENT_AGGR_DISABLED 0x0
#define EVENT_AGGR_ENABLED 0x1

#define EVENT_AGGR_BUFSIZE_MAX 1512
#define EVENT_AGGR_BUFSIZE_MIN 512

#define EVENT_AGGR_FLUSH_TIMEOUT_DEFAULT 100
#define EVENT_AGGR_FLUSH_TIMEOUT_MAX 2000
#define EVENT_AGGR_NUM_EVENTS_FLUSH 5
typedef struct event_aggr_config {
    uint16 version;
    uint16 len;
    uint16 flags;            /* bit 0 to enable/disable the feature */
    uint16 bufsize;          /* Aggregate buffer size */
    uint16 flush_timeout;    /* Timeout for event flush */
    uint16 num_events_flush; /* Number of events aggregated before flush */
} event_aggr_config_t;

#ifndef WL_TDMTX_TYPEDEF_HAS_ALIAS
typedef tdmtx_cnt_v1_t tdmtx_cnt_t;
typedef tdmtx_cnt_shm_v1_t tdmtx_cnt_shm_t;
typedef wl_tdmtx_ecounters_v1_t wl_tdmtx_ecounters_t;
#define WL_CNT_TDMTX_STRUCT_SZ (sizeof(tdmtx_cnt_t))
#define WL_CNT_TDMTX_SHM_SZ (sizeof(tdmtx_cnt_shm_t))
#endif // endif

/** chanctxt related statistics */
#define CHANCTXT_STATS_VERSION_1 1
#define CHANCTXT_STATS_CURRENT_VERSION CHANCTXT_STATS_VERSION_1
typedef struct wlc_chanctxt_stats {
    uint32 excursionq_end_miss;
    uint32 activeq_end_miss;
    uint32 no_chanctxt_count;
    uint32 txqueue_end_incomplete;
    uint32 txqueue_start_incomplete;
} wlc_chanctxt_stats_core_t;

typedef struct chanctxt_stats {
    uint16 version;
    uint16 length;
    wlc_chanctxt_stats_core_t corestats[MAX_NUM_D11CORES];
} wlc_chanctxt_stats_t;

typedef struct wl_txdc_ioc {
    uint8 ver;
    uint8 id;     /* ID of the sub-command */
    uint16 len;   /* total length of all data[] */
    uint8 data[]; /* var len payload */
} wl_txdc_ioc_t;

/*
 * iovar subcommand ids
 */
enum { IOV_TXDC_ENB = 1, IOV_TXDC_MODE = 2, IOV_TXDC_DUMP = 3, IOV_TXDC_LAST };

/* WL_NAN_XTLV_SLOT_STATS */
/* WL_NAN_EVENT_SLOT_START, WL_NAN_EVENT_SLOT_END */
typedef struct nan_slot_event_data {
    uint32 cur_slot_idx; /* current idx in channel schedule */
    uint32 fw_time;      /* target current time in microseconds */
    uint32 band; /* current band (2G/5G) for which the event is received */
} nan_slot_event_data_t;

#ifndef BCMUTILS_ERR_CODES

/* SAE (Simultaneous Authentication of Equals) error codes.
 * These error codes are local.
 */

/*  SAE status codes are reserved from -3072 to -4095 (1K) */

enum wl_sae_status {
    WL_SAE_E_AUTH_FAILURE = -3072,
    /* Discard silently */
    WL_SAE_E_AUTH_DISCARD = -3073,
    /* Authentication in progress */
    WL_SAE_E_AUTH_CONTINUE = -3074,
    /* Invalid scalar/elt */
    WL_SAE_E_AUTH_COMMIT_INVALID = -3075,
    /* Invalid confirm token */
    WL_SAE_E_AUTH_CONFIRM_INVALID = -3076,
    /* Peer scalar validation failure */
    WL_SAE_E_CRYPTO_SCALAR_VALIDATION = -3077,
    /* Peer element prime validation failure */
    WL_SAE_E_CRYPTO_ELE_PRIME_VALIDATION = -3078,
    /* Peer element is not on the curve */
    WL_SAE_E_CRYPTO_ELE_NOT_ON_CURVE = -3079,
    /* Generic EC error (eliptic curve related) */
    WL_SAE_E_CRYPTO_EC_ERROR = -3080,
    /* Both local and peer mac addrs are same */
    WL_SAE_E_CRYPTO_EQUAL_MACADDRS = -3081,
    /* Loop exceeded in deriving the scalar */
    WL_SAE_E_CRYPTO_SCALAR_ITER_EXCEEDED = -3082,
    /* ECC group is unsupported */
    WL_SAE_E_CRYPTO_UNSUPPORTED_GROUP = -3083,
    /* Exceeded the hunting-and-pecking counter */
    WL_SAE_E_CRYPTO_PWE_COUNTER_EXCEEDED = -3084,
    /* SAE crypto component is not initialized */
    WL_SAE_E_CRYPTO_NOT_INITED = -3085,
    /* bn_get has failed */
    WL_SAE_E_CRYPTO_BN_GET_ERROR = -3086,
    /* bn_set has failed */
    WL_SAE_E_CRYPTO_BN_SET_ERROR = -3087,
    /* PMK is not computed yet */
    WL_SAE_E_CRYPTO_PMK_UNAVAILABLE = -3088,
    /* Peer confirm did not match */
    WL_SAE_E_CRYPTO_CONFIRM_MISMATCH = -3089,
    /* Element K is at infinity no the curve */
    WL_SAE_E_CRYPTO_KEY_AT_INFINITY = -3090,
    /* SAE Crypto private data magic number mismatch */
    WL_SAE_E_CRYPTO_PRIV_MAGIC_MISMATCH = -3091
};

/* PMK manager block. Event codes from -5120 to -6143 */

/* PSK hashing event codes */
typedef enum wlc_pmk_psk_hash_status {
    WL_PMK_E_PSK_HASH_FAILED = -5120,
    WL_PMK_E_PSK_HASH_DONE = -5121,
    WL_PMK_E_PSK_HASH_RUNNING = -5122,
    WL_PMK_E_PSK_INVALID = -5123,
    WL_PMK_E_PSK_NOMEM = -5124
} wlc_pmk_psk_hash_status_t;

#endif /* BCMUTILS_ERR_CODES */

/* Block Channel */
#define WL_BLOCK_CHANNEL_VER_1 1u

typedef struct wl_block_ch_v1 {
    uint16 version;
    uint16 len;
    uint32 band;       /* Band select */
    uint8 channel_num; /* The number of block channels in the selected band */
    uint8 padding[3];
    uint8 channel[]; /* Channel to block, Variable Length */
} wl_block_ch_v1_t;

typedef struct dma_wl_addr_region {
    uint32 addr_low;
    uint32 addr_high;
} dma_wl_addr_region_t;

#define WL_ROAMSTATS_IOV_VERSION 1

#define MAX_PREV_ROAM_EVENTS 16u

#define ROAMSTATS_UNKNOWN_CNT 0xFFFFu

/* roaming statistics counter structures */
typedef struct wlc_assoc_roamstats_event_msg_v1 {
    uint32 event_type; /* Message (see below) */
    uint32 status;     /* Status code (see below) */
    uint32 reason;     /* Reason code (if applicable) */
    uint32 timestamp;  /* Timestamp of event */
} wlc_assoc_roamstats_event_msg_v1_t;

enum wl_roamstats_cmd_id {
    WL_ROAMSTATS_XTLV_CMD_VER = 0,
    WL_ROAMSTATS_XTLV_CMD_RESET = 1,
    WL_ROAMSTATS_XTLV_CMD_STATUS = 2,
    WL_ROAMSTATS_XTLV_CMD_LAST /* Keep this at the end */
};

enum wl_roamstats_xtlv_id {
    WL_ROAMSTATS_XTLV_VER = 0x0,
    WL_ROAMSTATS_XTLV_COUNTER_INFO = 0x1,
    WL_ROAMSTATS_XTLV_PREV_ROAM_EVENTS = 0x2,
    WL_ROAMSTATS_XTLV_REASON_INFO = 0x3
};

/* WL_ROAMSTATS_XTLV_COUNTER_INFO */
typedef struct {
    uint32 initial_assoc_time;
    uint32 prev_roam_time;
    uint32 host_access_time;
    uint16 roam_success_cnt;
    uint16 roam_fail_cnt;
    uint16 roam_attempt_cnt;
    uint16 max_roam_target_cnt;
    uint16 min_roam_target_cnt;
    uint16 max_cached_ch_cnt;
    uint16 min_cached_ch_cnt;
    uint16 partial_roam_scan_cnt;
    uint16 full_roam_scan_cnt;
} roamstats_counter_info_v1_t;

/* WL_ROAMSTATS_XTLV_PREV_ROAM_EVENTS */
typedef struct {
    uint16 max;
    uint16 pos;
    wlc_assoc_roamstats_event_msg_v1_t roam_event[];
} roamstats_prev_roam_events_v1_t;

/* WL_ROAMSTATS_XTLV_REASON_INFO */
typedef struct {
    uint16 max;
    uint16 reason_cnt[];
} roamstats_reason_info_v1_t;

#ifdef HEALTH_CHECK_WLIOCTL
/* Health check status format:
 * reporting status size = uint32
 * 8 LSB bits are reserved for: WARN (0), ERROR (1), and other levels
 * MSB 24 bits are reserved for client to fill in its specific status
 */
#define HEALTH_CHECK_STATUS_OK 0
/* Bit positions. */
#define HEALTH_CHECK_STATUS_WARN 0x1
#define HEALTH_CHECK_STATUS_ERROR 0x2
#define HEALTH_CHECK_STATUS_TRAP 0x4
#define HEALTH_CHECK_STATUS_NOEVENT 0x8

/* Indication that required information is populated in log buffers */
#define HEALTH_CHECK_STATUS_INFO_LOG_BUF 0x80
#define HEALTH_CHECK_STATUS_MASK (0xFF)

#define HEALTH_CHECK_STATUS_MSB_SHIFT 8
#endif /* HEALTH_CHECK_WLIOCTL */

/** receive signal reporting module interface */

#define WL_RXSIG_IOV_MAJOR_VER (1u)
#define WL_RXSIG_IOV_MINOR_VER (1u)
#define WL_RXSIG_IOV_MAJOR_VER_SHIFT (8u)
#define WL_RXSIG_IOV_VERSION                                                   \
    ((WL_RXSIG_IOV_MAJOR_VER << WL_RXSIG_IOV_MAJOR_VER_SHIFT) |                \
     WL_RXSIG_IOV_MINOR_VER)
#define WL_RXSIG_IOV_GET_MAJOR(x) (x >> WL_RXSIG_IOV_MAJOR_VER_SHIFT)
#define WL_RXSIG_IOV_GET_MINOR(x) (x & 0xFF)

enum wl_rxsig_cmd_rssi_mode {
    WL_RXSIG_MODE_DB = 0x0,
    WL_RXSIG_MODE_QDB = 0x1,
    WL_RXSIG_MODE_LAST
};

/* structure defs for 'wl rxsig [cmd]' iovars */
enum wl_rxsig_iov_v1 {
    WL_RXSIG_CMD_RSSI = 0x1,    /**< combined rssi moving avg */
    WL_RXSIG_CMD_SNR = 0x2,     /**< combined snr moving avg */
    WL_RXSIG_CMD_RSSIANT = 0x3, /**< rssi moving avg per-ant */
    WL_RXSIG_CMD_SNRANT = 0x4,  /**< snr moving avg per-snr */
    WL_RXSIG_CMD_SMPLWIN = 0x5, /**< config for sampling window size */
    WL_RXSIG_CMD_SMPLGRP = 0x7, /**< config for grouping of pkt type */
    WL_RXSIG_CMD_STA_MA = 0x8,
    WL_RXSIG_CMD_MAMODE = 0x9,
    WL_RXSIG_CMD_MADIV = 0xa,
    WL_RXSIG_CMD_DUMP = 0xb,
    WL_RXSIG_CMD_DUMPWIN = 0xc,
    WL_RXSIG_CMD_TOTAL
};

struct wl_rxsig_cfg_v1 {
    uint16 version;
    chanspec_t chan;            /**< chanspec info for querying stats */
    uint8 pmac[ETHER_ADDR_LEN]; /**< peer(link) mac address */
};

struct wl_rxsig_iov_rssi_v1 {
    int8 rssi;
    uint8 rssi_qdb;
    uint8 pad[2];
};

struct wl_rxsig_iov_snr_v1 {
    int16 snr;
    uint16 pad;
};

struct wl_rxsig_iov_rssi_ant_v1 {
    int8 deci[WL_RSSI_ANT_MAX];
    uint8 frac[WL_RSSI_ANT_MAX];
    uint8 rssi_mode;  /**< MODE_DB or MODE_QDB */
    uint8 num_of_ant; /**< total number of ants */
    uint8 pad[2];     /**< padding for 32bit align */
};

#ifdef BCM_SDC

#define SDC_TRIGGER_CONFIG_VER_1 1
typedef struct {
    uint16 version;
    uint16 type;
    uint8 activate;
    uint8 pad;
} sdc_trigger_cfg_t;

typedef enum sdc_trigger_types {
    SDC_TYPE_STA_ONBOARD_DEBUG = 1,
    SDC_TYPE_SCAN_DEBUG = 2,
#ifdef SDC_TEST
    /*
     * This is for test purpose only. Don't assign specific value.
     * Keep at the end
     */
    SDC_TYPE_TEST1,
    SDC_TYPE_TEST2,
    SDC_TYPE_TEST3,
#endif /* SDC_TEST */
    SDC_TYPE_MAX_TRIGGER
} sdc_trigger_types_t;

/* *** SDC_TYPE_STA_ONBOARD_DEBUG specific ******* */

/* tlv IDs uniquely identifies tx and rx stats component */
enum wl_slice_hist_stats_xtlv_id {
    WL_STATE_HIST_TX_TOSS_REASONS = 0x1,
    WL_STATE_HIST_RX_TOSS_REASONS = 0x2
};

#ifndef WLC_HIST_TOSS_LEN
#define WLC_HIST_TOSS_LEN (8u)
#endif // endif
#define WL_HIST_COMPACT_TOSS_STATS_TX_VER_1 (1u)
#define WL_HIST_COMPACT_TOSS_STATS_RX_VER_1 (1u)

/* Format of running toss reasons with seq
 * [see  HIST_TOSS_xxxx macros]
 * bits [7..0]	: 8 bits : toss sts.
 *	[11..8]	: cfgidx
 *	[15..12]: ac
 *	[31..16]: seq
 */
#define HIST_TOSS_STS_POS (0u)
#define HIST_TOSS_STS_MASK (0x000000ffu)
#define HIST_TOSS_CFGIDX_POS (8u)
#define HIST_TOSS_CFGIDX_MASK (0x00000f00u)
#define HIST_TOSS_AC_POS (12u)
#define HIST_TOSS_AC_MASK (0x0000f000u)
#define HIST_TOSS_SEQ_POS (16u)
#define HIST_TOSS_SEQ_MASK (0xffff0000u)

/* Format of toss reasons with count
 * bits [15..0]	: 16 bits : toss reason
 * bits [31..16]: 16 bits : count
 */
#define HIST_TOSS_RC_REASON_POS (0u)
#define HIST_TOSS_RC_REASON_MASK (0xffffu)
#define HIST_TOSS_RC_COUNT_POS (16u)
#define HIST_TOSS_RC_COUNT_MASK (0xffff0000u)

typedef struct {
    uint16 version;
    uint8 hist_toss_type;     /* from wl_slice_hist_XX_stats_xtlv_id */
    uint8 hist_toss_num;      /* number of elements in hist_toss_xxx */
    uint32 hist_toss_cur_idx; /* latest data is in this index */
    uint32
        hist_toss_reasons[WLC_HIST_TOSS_LEN]; /* last 8 reasons along with seq,
                                               * etc as per HIST_TOSS_xxx format
                                               */
    uint32
        hist_toss_counts[WLC_HIST_TOSS_LEN]; /* toss counts corr to reasons */
} wl_hist_compact_toss_stats_v1_t;

#define WL_HIST_COMPACT_TOSS_STATS_TX_VER_2 (2u)
#define WL_HIST_COMPACT_TOSS_STATS_RX_VER_2 (2u)

typedef struct {
    uint16 version;
    uint8 htr_type;   /* from wl_slice_hist_XX_stats_xtlv_id */
    uint8 htr_num;    /* number of elements in htr_running or htr_rc */
    uint16 htr_rnidx; /* htr_running[rnidx-1] has latest data */
    uint16 htr_rcidx; /* htr_rc[rcidx-1] has latest data */
    uint32
        htr_running[WLC_HIST_TOSS_LEN]; /* last 8 reasons along with seq, etc as
                                         * per WLC_SDC_COMPACT_TOSS_REASON()
                                         * format
                                         */
    uint32
        htr_rn_ts[WLC_HIST_TOSS_LEN]; /* time stamps corr to htr_running data */
    uint32 htr_rc[WLC_HIST_TOSS_LEN]; /* last 8 toss reasons and counts in
                                       * WLC_SDC_COMPACT_TOSS_RC() format
                                       */
    uint32 htr_rc_ts[WLC_HIST_TOSS_LEN]; /* time stamps corr to htr_rc */
} wl_hist_compact_toss_stats_v2_t;

/* ***END of SDC_TYPE_STA_ONBOARD_DEBUG specific ******* */

#endif /* BCM_SDC */

typedef struct wl_avs_info_v1 {
    uint16 version;     /* Structure version */
    uint16 equ_version; /* Equation Version */
    uint32 RO;          /* RO in OTP */
    uint32 equ_csr;     /* Equated CSR */
    uint32 read_csr;    /* Read Back CSR */
    uint32 aging;       /* aging setting in nvram */
} wl_avs_info_v1_t;

#define WL_AVS_INFO_VER_1 1

/* bitmap for clm_flags iovar */
#define WL_CLM_TXBF 0x01              /**< Flag for Tx beam forming */
#define WL_CLM_RED_EU 0x02            /* Flag for EU RED */
#define WL_CLM_EDCRS_EU 0x04          /**< Use EU post-2015 energy detect */
#define WL_CLM_DFS_TPC 0x08           /**< Flag for DFS TPC */
#define WL_CLM_RADAR_TYPE_EU 0x10     /**< Flag for EU */
#define WL_CLM_DFS_FCC WL_CLM_DFS_TPC /**< Flag for DFS FCC */
#define WL_CLM_DFS_EU                                                          \
    (WL_CLM_DFS_TPC | WL_CLM_RADAR_TYPE_EU) /**< Flag for DFS EU */

/* SC (scan core) command IDs */
enum wl_sc_cmd {
    WL_SC_CMD_DBG = 0,
    WL_SC_CMD_CNX = 1,
    WL_SC_CMD_CAP = 2,
    WL_SC_CMD_CONFIG = 3,
    WL_SC_CMD_LAST
};

typedef struct wl_ext_auth_evt {
    wlc_ssid_t ssid;
    struct ether_addr bssid;
    unsigned int key_mgmt_suite;
    int status;
} wl_ext_auth_evt_t;

/* WBUS sub-command IDs for unit test */
#define WL_WBUS_INA_SLOT_START 0x01u /**< Inactive slot start sub command ID.  \
                                      */
#define WL_WBUS_INA_SLOT_STOP 0x02u  /**< Inactive slot stop sub command ID. */

/* WBUS (WiFi BT uniform scheduler) command IDs */
enum wl_wbus_cmd {
    WL_WBUS_CMD_VER = 0,
    WL_WBUS_CMD_STATS = 1,
    WL_WBUS_CMD_UNIT_TEST = 2,
    WL_WBUS_CMD_BT_TEST = 3,
    WL_WBUS_CMD_CAP = 4,
    WL_WBUS_CMD_LAST
};

#define WBUS_BT_SCHED_TEST_PARAMS_VER_1 1

typedef struct wbus_bt_sched_test_params_v1 {
    uint16 version;
    uint16 pad;
    uint32 flags;
    uint32 action;
    uint32 duration;
    uint32 interval;
} wbus_bt_sched_test_params_v1_t;

#define WBUS_BT_SCHED_ADD 0u
#define WBUS_BT_SCHED_REMOVE 1u
#define WBUS_BT_SCHED_INVALID 0xFFu

#define KEY_UPDATE_INFO_VER_V1 1
typedef struct key_update_info_v1 {
    uint16 ver;
    uint8 pad;
    uint8 flags;
    uint32 timestamp;
    uint32 algo;
    uint32 key_flags;
    struct ether_addr ea;
    struct ether_addr sa;
} key_update_info_v1_t;

/* Key update flag bit field */
#define KEY_UPD_FLAG_ADD_KEY 0x1 /* 0 - Removal, 1 - Add key */

#ifdef WLLLW
/* LLW Session */
#define LLW_VERSION 1
#define LLW_STATS_VERSION 1

/* LLW roles */
#define LLW_ROLE_SCHEDULER 0
#define LLW_ROLE_CLIENT 1

/* LLW modes */
#define LLW_MODE_GAPS 0
#define LLW_MODE_BACK_TO_BACK 1

/* LLW session max values */
#define LLW_MAX_SESSION_ID 10
#define LLW_MAX_FLOW_ID 40
#define LLW_MAX_CLIENT_NUM 15
#define LLW_MAX_GAPS_PERIOD 20
#define LLW_MAX_GAPS_VAR 3
#define LLW_MAX_RETX_CNT 10
#define LLW_MAX_AIFSN EDCF_AIFSN_MAX
#define LLW_MAX_CWMIN EDCF_ECW_MAX
#define LLW_MAX_CWMAX EDCF_ECW_MAX
#define LLW_MAX_PER_NUMERATOR 100
#define LLW_MAX_PER_DENOM 10000
#define LLW_MAX_CLIENT_ID 15
#define LLW_MAX_PKT_SIZE 1500
#define LLW_MAX_PKT_NUM 10
#define LLW_MAX_MCS 9
#define LLW_MAX_NUM_STREAMS 8
#define LLW_MAX_IBS 32

/* Per LLW session config */
/* WL_LLW_CMD_SESSION_CREATE, WL_LLW_CMD_SESSION_UPDATE */
typedef struct wl_llw_session_cfg {
    uint8 session_id;
    uint8 role;
    uint8 mode;
    uint8 client_id;
    uint8 gaps_period;
    uint8 gaps_var;
    uint8 aifsn;
    uint8 ecwmin; /* exponent value for minimum contention window */
    uint8 ecwmax; /* exponent value for maximum contention window */
    uint8 mcs;
    uint8 num_streams;
    uint8 ibs; /* interblock spacing in usecs, for spacing between Transaction
                  Blocks */
    uint16 ul_pkt_size;
    uint16 dl_pkt_size;
    uint16 per_denom;    /* denominator for target PER */
    uint8 per_numerator; /* this value divided by per_denom gives the target PER
                          */
    uint8 dl_pkt_num;
    uint8 client_num;
    uint8 retx_cnt;
    uint8 pwr_save;
    uint8
        auto_ba; /* automatic RX/TX BA session setup (no negotiation needed) */
    uint8 if_index;
    uint8 padding[3];
    struct ether_addr multicast_addr;
    struct ether_addr scheduler_addr;
} wl_llw_session_cfg_t;

/* WL_LLW_CMD_SESSION_DELETE, WL_LLW_CMD_SESSION_ENABLE,
 * WL_LLW_CMD_SESSION_DISABLE, */
/* WL_LLW_CMD_SESSION_GET */
typedef struct wl_llw_session_cmd {
    uint8 session_id;
    uint8 padding[3];
} wl_llw_session_cmd_t;

/* LLW client config */
/* WL_LLW_CMD_CLIENT_ADD, WL_LLW_CMD_CLIENT_DELETE, WL_LLW_CMD_CLIENT_GET */
typedef struct wl_llw_client_cfg {
    uint8 session_id;
    uint8 client_id;
    struct ether_addr mac;
} wl_llw_client_cfg_t;

/* Get list of session IDs from FW */
/* WL_LLW_CMD_SESSION_ID */
typedef struct llw_session_id_list {
    uint8 id_count; /* Number of session IDs */
    uint8 list[];   /* list of session IDs */
} llw_session_id_list_t;

/* LLW XTLV structures */
typedef struct wl_llw_iov_cmd {
    uint16 version;
    uint8 cmd_cnt;
    uint8 pad;
    uint8 cmds[];
} wl_llw_iov_cmd_t;

typedef struct wl_llw_iov_sub_cmd {
    uint16 type;
    uint16 len;
    union {
        int32 status;   /* Processed status - Set by FW */
        uint32 options; /* Command Process Options - Set by Host */
    } u;
    uint8 data[];
} wl_llw_iov_sub_cmd_t;

/* to be used in type field of wl_llw_iov_sub_cmd_t structure while issuing LLW
 * commands */
typedef enum wl_llw_sub_cmd_xtlv_id {
    WL_LLW_CMD_SESSION_ID,
    WL_LLW_CMD_SESSION_CREATE,
    WL_LLW_CMD_SESSION_DELETE,
    WL_LLW_CMD_SESSION_UPDATE,
    WL_LLW_CMD_SESSION_ENABLE,
    WL_LLW_CMD_SESSION_DISABLE,
    WL_LLW_CMD_SESSION_GET,
    WL_LLW_CMD_CLIENT_ADD,
    WL_LLW_CMD_CLIENT_DELETE,
    WL_LLW_CMD_CLIENT_GET,
    WL_LLW_CMD_FLOW_ADD,
    WL_LLW_CMD_FLOW_DELETE,
    WL_LLW_CMD_FLOW_GET,
    WL_LLW_CMD_STATS
} wl_llw_sub_cmd_xtlv_id_t;

/* LLW stats */
typedef enum wl_llw_xtlv { WL_LLW_XTLV_STATS } wl_llw_xtlv_t;

typedef struct wl_llw_stats {
    uint32 txpackets;
    uint32 txbytes;
    uint32 txrts;
    uint32 txnocts;
    uint32 txnoack;
    uint32 txfail;
    uint32 txretry;
    uint32 txdropped;
    uint32 tx_avg_q_time;
    uint32 tx_min_q_time;
    uint32 tx_max_q_time;
    uint32 tx_avg_rem_lifetime;
    uint32 tx_min_rem_lifetime;
    uint32 tx_max_rem_lifetime;
    uint32 rxpackets;
    uint32 rxbytes;
    uint32 rxfail;
    uint32 rxretry;
    uint32 txschedfrm;
    uint32 retxschedfrm;
} wl_llw_stats_t;

typedef struct wl_llw_stats_hdr {
    uint16 version;
    uint16 stats_cnt;
    uint32 tot_len;
    uint8 stat_xtlvs[];
} wl_llw_stats_hdr_t;

/* WL_LLW_XTLV_STATS */
typedef struct wl_llw_stats_xtlv {
    uint16 type;
    uint16 len;
    uint8 stats[];
} wl_llw_stats_xtlv_t;

/* WL_LLW_CMD_STATS */
typedef struct wl_llw_stats_cmd {
    uint8 session_id;
    uint8 client_id;
    uint16 padding;
} wl_llw_stats_cmd_t;

/* LLW flow ring ID config */
/* WL_LLW_CMD_FLOW_ADD, WL_LLW_CMD_FLOW_DELETE, WL_LLW_CMD_FLOW_GET */
typedef struct wl_llw_flow_cfg {
    uint8 session_id;
    uint8 flow_id;
    uint16 padding;
} wl_llw_flow_cfg_t;
#endif /* End of LLW Session */

#define WL_OMI_CONFIG_VERSION_1 1u

/* values for valid_bm */
#define OMI_CONFIG_VALID_BMP_RXNSS 0x0001u
#define OMI_CONFIG_VALID_BMP_BW 0x0002u
#define OMI_CONFIG_VALID_BMP_ULMU_DISABLE 0x0004u
#define OMI_CONFIG_VALID_BMP_TXNSTS 0x0008u
#define OMI_CONFIG_VALID_BMP_ERSU_DISABLE 0x0010u
#define OMI_CONFIG_VALID_BMP_DLMU_RSD_RCM 0x0020u
#define OMI_CONFIG_VALID_BMP_ULMU_DATA_DISABLE 0x0040u
#define OMI_CONFIG_VALID_BMP_ALL 0x0FFFu

#define OMI_CONFIG_BW_MAX 3u

typedef struct wl_omi_config {
    uint16 valid_bm; /* validity bitmask for each config */
    uint8 rxnss;
    uint8 bw;
    uint8 ulmu_disable;
    uint8 txnsts;
    uint8 ersu_disable;
    uint8 dlmu_resound_rec;
    uint8 ulmu_data_disable;
    uint8 pad[3];
} wl_omi_config_t;

typedef struct wl_omi_req {
    uint16 version;
    uint16 len;
    wl_omi_config_t config;
} wl_omi_req_v1_t;

/* Bits for ULMU disable reason */
#define OMI_ULMU_DISABLED_HOST 0x01u    /* Host has disabled through he omi */
#define OMI_ULMU_DISABLED_NAN 0x04u     /* Disabled due to NAN enabled */
#define OMI_ULMU_DISABLED_BTCOEX 0x08u  /* Disabled while in BT Coex activity  \
                                         */
#define OMI_ULMU_DISABLED_LTECOEX 0x10u /* Disabled due to LTE Coex activity   \
                                         */
#define OMI_ULMU_DISABLED_NON11AX_CONN                                         \
    0x20u /* Disabled due to not associated to 11ax AP */
#define OMI_ULMU_DISABLED_THROTTLE_ENABLE                                      \
    0x40u /* Disabled due to throttle timer running */
#define OMI_ULMU_DISABLED_TXCHAIN_DOWNGRADE                                    \
    0x80u /* Disabled due to Txchain downgrade */
#define OMI_ULMU_DISABLED_TX_DUTY_CYCLE                                        \
    0x100u /* Disabled due to tx duty cycle */

/* Bits for DLMU Resound Recommendation reason */
#define OMI_DLMU_RSD_RCM_HOST (0x1u << 0u) /* Host directly set the bit */
#define OMI_DLMU_RSD_RCM_MPF (0x1u << 1u)  /* Set on MPF state change */

#define WL_OMI_STATUS_VERSION_1 1u
typedef struct wl_omi_status {
    uint16 version;
    uint16 len;
    wl_omi_config_t omi_pending; /* OMI requests pending */
    uint16 omi_data; /* current OM Control field for completed OMI requests */
    uint16 ulmu_disable_reason; /* Bits representing UL OFDMA disable reasons */
    uint32 ulmu_disable_duration; /* Duration (ms) for which UL OFDMA is
                                     disabled */
} wl_omi_status_v1_t;

#define WL_OMI_STATUS_VERSION_2 2u
typedef struct wl_omi_status_v2 {
    uint16 version;
    uint16 len;
    wl_omi_config_t omi_pending; /* OMI requests pending */
    uint16 omi_data; /* Current OM Control field for completed OMI requests */
    uint16 ulmu_disable_reason; /* Bits representing UL OFDMA disable reasons */
    uint32 ulmu_disable_duration; /* Duration (ms) for which UL OFDMA is
                                     disabled */
    uint32 dlmu_rsd_rcm_duration; /* Dur (ms) for which ResoundRecommentation is
                                     set */
    uint16 dlmu_rsd_rcm_mpf_state; /* The MPF state value */
    uint16 dlmu_rsd_rcm_reason; /* DL MU-MIMO recommendation reasons bitmap */
} wl_omi_status_v2_t;

#define WL_ULMU_DISABLE_STATS_VERSION_1 1u
typedef struct wl_ulmu_disable_stats {
    uint16 version;
    uint16 len;
    uint32 ulmu_disable_ts;     /* UL OFDMA disabled timestamp (ms) */
    uint16 ulmu_disable_reason; /* Bits representing UL OFDMA disable reasons */
    uint16 ulmu_disable_count;  /* UL MU disable count during current infra
                                   association */
    uint32 last_trig_rx_ts;     /* Last trigger frame received timestamp (ms) */
    uint16 trig_rx_count; /* No of trigger frames received after last UL OFDMA
                             disable */
    uint16 max_latency;   /* Max latency by AP to re-act for UL OFDMA disable
                             request (ms) */
    uint16 min_latency;   /* Min latency by AP to re-act for UL OFDMA disable
                             request (ms) */
    uint16 avg_latency;   /* Avg latency by AP to re-act for UL OFDMA disable
                             request (ms) */
} wl_ulmu_disable_stats_v1_t;

/* sub-xtlv IDs within WL_STATS_XTLV_WL_SLICE_TX_HISTOGRAMS */
enum wl_tx_histogram_id {
    WL_TX_HIST_TXQ_ID = 1,
    WL_TX_HIST_LOW_TXQ_ID = 2,
    WL_TX_HIST_SCBQ_ID = 3,
    WL_TX_HIST_EXCUR_TXQ_ID = 4,
    WL_TX_HIST_EXCUR_LOW_TXQ_ID = 5
};

/* common tx histogram structure */
typedef struct wl_tx_hist {
    uint16 hist_bmap;  /* bit N indicates histogram follows for priority or fifo
                          N */
    uint16 hist_count; /* count of histograms in var len array */
    uint32 hist[1]; /* var len array of histograms each prefix by hist length */
} wl_tx_hist_t;

#define WL_TX_HIST_FIXED_LEN (OFFSETOF(wl_tx_hist_t, hist))
#define WL_TX_HIST_FULL_LEN(num_hist, max_hist_size)                           \
    (WL_TX_HIST_FIXED_LEN + (num_hist) * (max_hist_size + 1) * sizeof(uint32))

/* structure for WL_TX_HIST_TXQ, WL_TX_HIST_EXCUR_TXQ_ID */
typedef struct wl_tx_hist_txq {
    uint32
        bsscfg_bmap; /* bitmap of bsscfg indexes associated with this queue */
    wl_tx_hist_t tx_hist; /* tx histograms */
} wl_tx_hist_txq_t;

#define WL_TX_HIST_TXQ_FIXED_LEN                                               \
    (OFFSETOF(wl_tx_hist_txq_t, tx_hist) + WL_TX_HIST_FIXED_LEN)
#define WL_TX_HIST_TXQ_FULL_LEN(num_hist, max_hist_size)                       \
    (OFFSETOF(wl_tx_hist_txq_t, tx_hist) +                                     \
     WL_TX_HIST_FULL_LEN(num_hist, max_hist_size))

/* sub-xtlv IDs within WL_STATS_XTLV_WL_SLICE_TX_HISTOGRAMS */
enum wl_txq_stop_histogram_id {
    WL_TXQ_STOP_HIST_SW = 1,
    WL_TXQ_STOP_HIST_HW = 2,
    WL_TXQ_STOP_HIST_PKTS_SW = 3,
    WL_TXQ_STOP_HIST_PKTS_HW = 4,
    WL_TXQ_STOP_HIST_MAX = WL_TXQ_STOP_HIST_PKTS_HW
};

/* common tx histogram structure */
typedef struct wl_txq_stop_hist {
    wl_tx_hist_t tx_hist; /* tx histograms */
} wl_txq_stop_hist_t;

#define WL_TXQ_STOP_HIST_FIXED_LEN                                             \
    (OFFSETOF(wl_txq_stop_hist_t, tx_hist) + WL_TX_HIST_FIXED_LEN)
#define WL_TXQ_STOP_HIST_FULL_LEN(num_hist, max_hist_size)                     \
    (OFFSETOF(wl_txq_stop_hist_t, tx_hist) +                                   \
     WL_TX_HIST_FULL_LEN(num_hist, max_hist_size))

/* structure for WL_TX_HIST_LOW_TXQ, WL_TX_HIST_EXCUR_LOW_TXQ_ID */
typedef struct wl_tx_hist_low_txq {
    wl_tx_hist_t tx_hist; /* tx histograms */
} wl_tx_hist_low_txq_t;

#define WL_TX_HIST_LOW_TXQ_FIXED_LEN                                           \
    (OFFSETOF(wl_tx_hist_low_txq_t, tx_hist) + WL_TX_HIST_FIXED_LEN)
#define WL_TX_HIST_LOW_TXQ_FULL_LEN(num_hist, max_hist_size)                   \
    (OFFSETOF(wl_tx_hist_low_txq_t, tx_hist) +                                 \
     WL_TX_HIST_FULL_LEN(num_hist, max_hist_size))

/* structure for WL_TX_HIST_SCBQ */
typedef struct wl_tx_hist_scbq {
    struct ether_addr ea; /* ether addr of peer */
    uint16 bsscfg_idx;    /* bsscfg index */
    wl_tx_hist_t tx_hist; /* tx histograms */
} wl_tx_hist_scbq_t;

#define WL_TX_HIST_SCBQ_FIXED_LEN                                              \
    (OFFSETOF(wl_tx_hist_scbq_t, tx_hist) + WL_TX_HIST_FIXED_LEN)
#define WL_TX_HIST_SCBQ_FULL_LEN(num_hist, max_hist_size)                      \
    (OFFSETOF(wl_tx_hist_scbq_t, tx_hist) +                                    \
     WL_TX_HIST_FULL_LEN(num_hist, max_hist_size))

/* sub-xtlv IDs within WL_STATS_XTLV_WL_SLICE_TX_QUEUE_DEPTH */
enum wl_tx_queue_depth_id {
    WL_TX_QUEUE_DEPTH_TXQ_ID = 1,
    WL_TX_QUEUE_DEPTH_LOW_TXQ_ID = 2,
    WL_TX_QUEUE_DEPTH_SCBQ_ID = 3,
    WL_TX_QUEUE_DEPTH_EXCUR_TXQ_ID = 4,
    WL_TX_QUEUE_DEPTH_EXCUR_LOW_TXQ_ID = 5
};

/* common tx queue depth structure */
typedef struct wl_tx_queue_depth {
    uint16 queue_depth_bmap;  /* bitmap of queue depth in var len array */
    uint16 queue_depth_count; /* count of queue depth in var len array */
    uint16 queue_depth[1];    /* var len array of queue depth */
} wl_tx_queue_depth_t;

#define WL_TX_QUEUE_DEPTH_FIXED_LEN (OFFSETOF(wl_tx_queue_depth_t, queue_depth))
#define WL_TX_QUEUE_DEPTH_FULL_LEN(num_queue_depth)                            \
    (WL_TX_QUEUE_DEPTH_FIXED_LEN + (num_queue_depth) * sizeof(uint16))

/* structure for WL_TX_QUEUE_DEPTH_TXQ_ID, WL_TX_QUEUE_DEPTH_EXCUR_TXQ_ID */
typedef struct wl_tx_queue_depth_txq {
    uint32 bsscfg_map; /* bitmap of bsscfg indexes associated with this queue */
    wl_tx_queue_depth_t tx_queue_depth; /* queue depth */
} wl_tx_queue_depth_txq_t;

#define WL_TX_QUEUE_DEPTH_TXQ_FIXED_LEN                                        \
    (OFFSETOF(wl_tx_queue_depth_txq_t, tx_queue_depth) +                       \
     WL_TX_QUEUE_DEPTH_FIXED_LEN)
#define WL_TX_QUEUE_DEPTH_TXQ_FULL_LEN(num_queue_depth)                        \
    (OFFSETOF(wl_tx_queue_depth_txq_t, tx_queue_depth) +                       \
     WL_TX_QUEUE_DEPTH_FULL_LEN(num_queue_depth))

/* structure for WL_TX_QUEUE_DEPTH_LOW_TXQ_ID,
 * WL_TX_QUEUE_DEPTH_EXCUR_LOW_TXQ_ID */
typedef struct wl_tx_queue_depth_low_txq {
    wl_tx_queue_depth_t tx_queue_depth; /* queue depth */
} wl_tx_queue_depth_low_txq_t;

#define WL_TX_QUEUE_DEPTH_LOW_TXQ_FIXED_LEN                                    \
    (OFFSETOF(wl_tx_queue_depth_low_txq_t, tx_queue_depth) +                   \
     WL_TX_QUEUE_DEPTH_FIXED_LEN)
#define WL_TX_QUEUE_DEPTH_LOW_TXQ_FULL_LEN(num_queue_depth)                    \
    (OFFSETOF(wl_tx_queue_depth_low_txq_t, tx_queue_depth) +                   \
     WL_TX_QUEUE_DEPTH_FULL_LEN(num_queue_depth))

/* structure for WL_TX_QUEUE_DEPTH_SCBQ_ID */
typedef struct wl_tx_queue_depth_scbq {
    struct ether_addr ea;               /* ether addr of peer */
    uint16 bsscfg_idx;                  /* bsscfg index */
    wl_tx_queue_depth_t tx_queue_depth; /* queue depth */
} wl_tx_queue_depth_scbq_t;

#define WL_TX_QUEUE_DEPTH_SCBQ_FIXED_LEN                                       \
    (OFFSETOF(wl_tx_queue_depth_scbq_t, tx_queue_depth) +                      \
     WL_TX_QUEUE_DEPTH_FIXED_LEN)
#define WL_TX_QUEUE_DEPTH_SCBQ_FULL_LEN(num_queue_depth)                       \
    (OFFSETOF(wl_tx_queue_depth_scbq_t, tx_queue_depth) +                      \
     WL_TX_QUEUE_DEPTH_FULL_LEN(num_queue_depth))

/* sub-xtlv IDs within WL_STATS_XTLV_BUS_PCIE_TX_HISTOGRAMS */
enum wl_pcie_tx_histogram_id { WL_PCIE_TX_HIST_ID = 1 };

/* structure for PCIE_TX_HIST_ID */
typedef struct wl_pcie_tx_hist {
    uint16 ring_id;       /* PCIe ring id */
    uint16 pad;           /* 4-byte alignment */
    wl_tx_hist_t tx_hist; /* hist_bmap:
                           *	0x1=tx histogram
                           *	0x2=tx status pending histogram
                           */
} wl_pcie_tx_hist_t;

#define WL_PCIE_TX_HIST_FIXED_LEN                                              \
    (OFFSETOF(wl_pcie_tx_hist_t, tx_hist) + WL_TX_HIST_FIXED_LEN)
#define WL_PCIE_TX_HIST_FULL_LEN(num_hist, max_hist_size)                      \
    (OFFSETOF(wl_pcie_tx_hist_t, tx_hist) +                                    \
     WL_TX_HIST_FULL_LEN(num_hist, max_hist_size))

/* sub-xtlv IDs within WL_STATS_XTLV_BUS_PCIE_TX_QUEUE_DEPTH */
enum wl_pcie_tx_queue_depth_id { WL_PCIE_TX_QUEUE_DEPTH_ID = 1 };

/* structure for WL_PCIE_TX_QUEUE_DEPTH_ID */
typedef struct wl_pcie_tx_queue_depth {
    uint16 ring_id;        /* PCIe ring id */
    uint16 queue_depth;    /* queue depth of ring id */
    uint16 tx_status_pend; /* tx status pending of ring id */
    uint16 pad;            /* 4-byte alignment */
} wl_pcie_tx_queue_depth_t;

#define WL_PCIE_TX_QUEUE_DEPTH_FIXED_LEN sizeof(wl_pcie_tx_queue_depth_t)

#define WL_WSEC_DEL_PMK_VER_V1 1u
/* tlv ids for del pmk */
#define WL_DEL_PMK_TLV_ID 1u
#define WL_DEL_PMKID_TLV_ID 2u
#define WL_DEL_PEER_ADDR_TLV_ID 3u
typedef struct wl_wsec_del_pmk {
    uint16 version;
    uint16 length;
    uint8 xtlvs[];
} wl_wsec_del_pmk_t;
#define WL_WSEC_DEL_PMK_FIXED_LEN_V1 OFFSETOF(wl_wsec_del_pmk_t, xtlvs)

#define WLC_RC_ROAM_VER_1 1

typedef struct wlc_rcroam {
    uint16 ver;
    uint16 len;
    uint8 data[];
} wlc_rcroam_t;

typedef struct wlc_rcroam_info_v1 {
    uint16 inactivity_period; /* inactivty monitor period */
    uint16 roam_scan_timeout;
    uint16 periodic_roam_scan_timeout;
    uint8 roam_trig_step; /* roaming trigger step value */
} wlc_rcroam_info_v1_t;

#define WLC_RC_ROAM_CUR_VER WLC_RC_ROAM_VER_1
#define RCROAM_HDRLEN 4u
#define MAX_RCSCAN_TIMER 300u

#define WLC_SILENT_ROAM_VER_1 1
/* silent roam information struct */
typedef struct wlc_sroam_info_v1 {
    /* Silent roam Set/Get value */
    uint8 sroam_on;         /* sroam on/off */
    int8 sroam_min_rssi;    /* minimum rssi threshold to activate the feature */
    uint8 sroam_rssi_range; /* rssi tolerance to determine stationary status */
    uint8 sroam_score_delta; /* roam score delta value to prune candidate ap */
    uint8 sroam_period_time; /* required monitoring period to trigger roaming
                                scan */
    uint8 sroam_band;        /* band setting of roaming scan (all, 5g, 2g) */
    uint8 sroam_inact_cnt;   /* tx/rx frame count threshold for checking
                                inactivity */
    /* Silent roam monitor value */
    int8 sroam_ref_rssi;    /* reference rssi which is picked when monitoring is
                             * started. it is updated to current rssi when it's
                             * out from rssi range
                             */
    uint8 sroam_time_since; /* elapsed time since start monitoring */
    uint8 pad[3];
    uint32 sroam_txfrm_prev; /* save current tx frame counts */
    uint32 sroam_rxfrm_prev; /* save current rx frame counts */
} wlc_sroam_info_v1_t;

typedef struct wlc_sroam {
    uint16 ver;
    uint16 len;
    uint8 data[];
} wlc_sroam_t;

#define WLC_SILENT_ROAM_CUR_VER WLC_SILENT_ROAM_VER_1
#define SROAM_HDRLEN 4u

#define DEF_SROAM_OFF 0
#define DEF_SROAM_MIN_RSSI -65
#define DEF_SROAM_RSSI_RANGE 3u
#define DEF_SROAM_SCORE_DELTA 1u
#define DEF_SROAM_PERIOD_TIME 10u
#define DEF_SROAM_INACT_CNT 5u
#define MAX_SROAM_RSSI -70
#define MAX_SROAM_RSSI_RANGE 5u
#define MAX_SROAM_SCORE_DELTA 10u
#define MAX_SROAM_PERIOD_TIME 250u
#define SROAM_BAND_AUTO 3u

/* MACSMPL IOVAR parameters */
typedef enum wl_macdbg_macsmpl_iovar_id {
    WL_MACSMPL_START = 0,
    WL_MACSMPL_STOP = 1,
    WL_MACSMPL_DUMP = 2,
    WL_MACSMPL_STATUS = 3,
    WL_MACSMPL_SIZE = 4
} wl_macdbg_macsmpl_iovar_id_t;

/* WL_MACSMPL_STATUS values */
typedef enum wl_macdbg_macsmpl_status {
    WL_MACSMPL_STATUS_IDLE = 0,
    WL_MACSMPL_STATUS_ACTIVE = 1,
    WL_MACSMPL_STATUS_WAIT_FOR_TRIG = 2,
    WL_MACSMPL_STATUS_TRIGGERED = 3
} wl_macdbg_macsmpl_status_t;

/* WL_MACSMPL_START_PARAM subcommand data */
typedef struct wl_macsmpl_start_param {
    uint32 trig_condition; /* trigger condition */
    uint16 gpio_mux;       /* MACControl1 GPIOSel field */
    uint8 pad[2];          /* 4-byte struct alignment */
} wl_macsmpl_param_start_t;

/* MAC SC fragment request data */
typedef struct wl_macsmpl_frag_req_param {
    uint32 offset; /* requested MAC SC fragment offset */
    uint32 size;   /* requested MAC SC fragment size, bytes */
} wl_macsmpl_frag_req_param_t;

/* MAC SC fragment response data */
typedef struct wl_macsmpl_frag_resp_param {
    uint32 offset; /* MAC SC response fragment offset */
    uint32 size;   /* MAC SC reponse fragment size, bytes */
    uint8 data[];  /* MAC SC response fragment data, flexible array */
} wl_macsmpl_frag_resp_param_t;

/* MAC SC status data */
typedef struct wl_macsmpl_status {
    uint32 maccontrol1;  /* MACControl1 register value */
    uint32 macsc_flags;  /* M_MACSC_FLAGS SHM register value */
    uint16 sc_play_ctrl; /* TXE SampleCollectPlayCtrl register value */
    uint16 sc_cur_ptr;   /* TXE SampleCollectCurPtr register value */
    uint16 sc_start_ptr; /* TXE SampleCollectStartPtr register value */
    uint16 sc_stop_ptr;  /* TXE SampleCollectStopPtr register value */
} wl_macsmpl_status_t;

/* WL_MACSMPL parameters data */
typedef struct wl_macsmpl_param {
    wl_macdbg_macsmpl_iovar_id_t subcmd_id;
    union {
        wl_macsmpl_param_start_t start;
        wl_macsmpl_frag_req_param_t frag_req;
    } u;
} wl_macsmpl_param_t;

/* High priority P2P */
#define WL_HP2P_COUNTERS_VER 2u
typedef struct hp2p_counters {
    uint16 frames_queued;
    uint16 frames_processed;
    uint16 frames_exp;
    uint16 frames_preempt;
    uint16 frames_retried;
    uint16 reserved; /* reserved, rsvd2 and rsvd3 are experimental counters */
    uint16 rsvd2;
    uint16 rsvd3;
} hp2p_counters_t;

typedef struct hp2p_counters_v2 {
    uint32 frames_queued;    /* Number of AMPDUs processed */
    uint16 frames_exp;       /* Number of Lifetime expiries */
    uint16 edt_retry;        /* Exceed due to - retry */
    uint16 mpif_reconf;      /* MPIF Reconfigure */
    uint16 exceed_delay;     /* Exceed delay threshold */
    uint16 edt_nav_thresh;   /* Exceed due to - NAV threshold */
    uint16 edt_dc_def;       /* Exceed due to - DC based deferral */
    uint16 edt_tx_fifo_full; /* Exceed due to - Tx FIFO full */
    uint16 edt_cts_thresh;   /* Exceed due to - CTS threshold */
    uint16 dbg1;             /* dbgX are for internal debugging */
    uint16 dbg2;
    uint16 dbg3;
    uint16 dbg4;
    uint16 dbg5;
    uint16 dbg6;
    uint16 dbg7;
    uint16 dbg8;
    uint16 dbg9;
    uint16 dbg10;
} hp2p_counters_v2_t;

typedef struct hp2p_counters_hdr {
    uint16 version; /* version of hp2p_counters_t structure */
    uint16 len;
    uint16 slice_idx;
    uint16 pad;
    uint8 counters[];
} hp2p_counters_hdr_t;

/* TX enable flags */
#define WL_HP2P_TX_AMPDU 0x0001u
#define WL_HP2P_TX_AMSDU 0x0002u
#define WL_HP2P_TX_RDG 0x0004u

/* RX enable flags */
#define WL_HP2P_RX_AMPDU 0x0001u
#define WL_HP2P_RX_AMSDU 0x0002u
#define WL_HP2P_RX_RDG 0x0004u
#define WL_HP2P_RX_AMPDU_REORDER 0x0008u

/* Max/min values for configuration parameters to check validity */
#define WL_HP2P_MAX_RETRY_MAX 14u
#define WL_HP2P_MAX_RETRY_MIN 6u
#define WL_HP2P_LATENCY_TARGET_MAX 30u
#define WL_HP2P_BURST_INTERVAL_MAX 64u
#define WL_HP2P_MAX_FIFO 5u
#define WL_HP2P_MAX_UCODE_LATENCY_THR 500u
#define WL_HP2P_MAX_UCODE_RECOV_TO 500u
#define WL_HP2P_MAX_UCODE_NAV_THR 50000u

#define WL_HP2P_VERSION 1u
typedef struct hp2p_tx_config {
    struct ether_addr peer_addr;
    uint16 max_burst;
    uint16 txop;  /* stored in network order (ls octet first) */
    uint16 flags; /* flags to enable/disable AMPDU, AMSDU, RDG */
    uint8 aci;
    uint8 ecw;
    uint8 fifo;
    uint8 tid;
    uint8 burst_interval;
    uint8 latency_target;
    uint8 max_retry;
    uint8 pad;
} hp2p_tx_config_t;

typedef struct hp2p_rx_config {
    struct ether_addr peer_addr;
    uint16 flags; /* flags to enable/disable AMPDU, AMSDU, RDG, AMPDU Reorder */
    uint8 tid;
    uint8 pad[3];
} hp2p_rx_config_t;

typedef struct hp2p_udbg_config {
    uint16 recovery_timeout; /* multiples of 256 usecs */
    uint16 latency_thresh;   /* multiples of 256 usecs */
    uint16 enable_trap;      /* trap if ucode delay exceeds latency_thresh */
    uint16 nav_thresh;       /* in usec */
} hp2p_udbg_config_t;

typedef struct hp2p_cmd {
    uint16 type;
    uint16 len;
    uint8 data[];
} hp2p_cmd_t;

typedef struct hp2p_cmd_hdr {
    uint16 version;
    uint16 slice_idx;
    uint8 cmd[];
} hp2p_cmd_hdr_t;

/* to be used in type field of hp2p_cmd_t structure while issuing HP2P commands
 */
typedef enum hp2p_cmd_id {
    WL_HP2P_CMD_ENABLE = 0,
    WL_HP2P_CMD_TX_CONFIG = 1,
    WL_HP2P_CMD_RX_CONFIG = 2,
    WL_HP2P_CMD_COUNTERS = 3,
    WL_HP2P_CMD_UDBG_CONFIG = 4
} hp2p_cmd_id_t;

typedef enum wl_rffe_cmd_type {
    WL_RFFE_CMD_DEBUG_MODE = 0,
    WL_RFFE_CMD_ELNABYP_MODE = 1,
    WL_RFFE_CMD_REG = 2,
    WL_RFFE_CMD_LAST
} wl_rffe_cmd_type_t;

/** RFFE struct passed through ioctl */
typedef struct {
    uint32 regaddr; /**< rFEM_RegAddr */
    uint32 antnum;  /**< rFEM AntNum */
    uint32 slaveid; /**< rFEM SlaveID */
    uint32 value;   /**< read/write value */
} rffe_reg_t;

#ifndef BCMUTILS_ERR_CODES

/*
 * SOE (Security Offload Engine) status codes.
 */

/*  SOE status codes are reserved from -6144 to -7167 (1K) */

enum wl_soe_status {
    /* Invalid operational context */
    WL_SOE_E_BAD_OP_CONTEXT = -6144,

    /* Invalid operational type */
    WL_SOE_E_BAD_OP_TYPE = -6145,

    /* Failure to get NAF3 encoded scalar */
    WL_SOE_E_BN_GET_NAF3_ERROR = -6146,

    /* Failure to get NAF3 params */
    WL_SOE_E_ECG_GET_NAF3_PARAMS_ERROR = -6147,

    /* FAILURE to get Montgomery params */
    WL_SOE_E_MONT_PARAMS_GET_ERROR = -6148,

    /* Invalid OSL handle */
    WL_SOE_E_BAD_SI_OSH = -6149,

    /* Invalid ECG group */
    WL_SOE_E_BAD_ECG_GROUP = -6150,

    /* Invalid BN context */
    WL_SOE_E_BAD_BN_CTX = -6151,

    /* Invalid SOE core register base address */
    WL_SOE_E_BAD_SOE_REGBASE = -6152,

    /* Invalid SOE context */
    WL_SOE_E_BAD_SOE_CONTXT = -6153,

    /* Number of words are too short (i.e., not enough
     * room to encode the PKA sequence)
     */
    WL_SOE_E_PKA_SEQUENCE_WORDS_TOO_SHORT = -6154,

    /* Generic bn_get error */
    WL_SOE_E_PKA_BN_GET_ERROR = -6155,

    /* Sequence buf too short for BN */
    WL_SOE_E_PKA_BN_BUF_TOO_SHORT_BN = -6156,

    /* Sequence buf too short for ECG prime */
    WL_SOE_E_PKA_BN_BUF_TOO_SHORT_ECG_PRIME = -6157,

    /* Sequence buf too short for Montgomery N' */
    WL_SOE_E_PKA_SEQ_BUF_TOO_SHORT_MONT_PRIME = -6158,

    /* Sequence buf too short for Accumulator registers */
    WL_SOE_E_PKA_SEQ_BUF_TOO_SHORT_ACCM_REG = -6159,

    /* Sequence buf too short for the point P */
    WL_SOE_E_PKA_SEQ_BUF_TOO_SHORT_P = -6160,

    /* Sequence buf too short for -P */
    WL_SOE_E_PKA_SEQ_BUF_TOO_SHORT_PN = -6161,

    /* Sequence buf too short for 3P */
    WL_SOE_E_PKA_SEQ_BUF_TOO_SHORT_3P = -6162,

    /* Sequence buf too short for -3P */
    WL_SOE_E_PKA_SEQ_BUF_TOO_SHORT_3PN = -6163,

    /* Sequence buf too short for NAF3 scalar */
    WL_SOE_E_PKA_SEQ_BUF_TOO_SHORT_NAF3_SCALAR = -6164,

    /* Sequence buf too short for load shift count */
    WL_SOE_E_PKA_SEQ_BUF_TOO_SHORT_PRE_JMP = -6165,

    /* SOE engine(SHA/PKA) failed to complete the operation */
    WL_SOE_E_ENGINE_UNABLE_TO_COMPLETE = -6166,

    /* Wrong LIR (Long Integer Register) type */
    WL_SOE_E_PKA_BAD_LIR_TYPE = -6167,

    /* Reference count has reached maximum */
    WL_SOE_E_MAX_REF_COUNT_REACHED = -6168,

    /* Failed to get the SOE context reference */
    WL_SOE_E_GET_REF_FAILED = -6169,

    /* Incoming digest length is invalid */
    WL_SOE_E_SHA_WRONG_DIGEST_LEN = -6170
};

#endif /* BCMUTILS_ERR_CODES */

#define NR5GCX_STATUS_VER_1 1
/* NR coex status structures */
typedef struct wlc_nr5gcx_status_v1 {
    uint16 version;           /* version info */
    uint16 len;               /* status length */
    uint32 mode;              /* NR coex status */
    uint32 nr_req_cnt;        /* NR req number since last read */
    uint32 nr_dur;            /* NR duration since last read, us */
    uint32 nr_duty_cycle;     /* NR duty cycle since last read */
    uint32 nr_max_dur;        /* NR max duration in a single request */
    uint32 wlan_crit_cnt;     /* aggregated # of WLAN critical events */
    uint32 wlan_crit_dur;     /* aggregated WLAN critical event duration, ms */
    uint32 wlan_crit_max_dur; /* Duration of the WLAN critical events whose dur
                                 is max */
    uint16 wlan_crit_evt_bitmap;   /* WLAN critical event occurrence bitmap,
                                    * 1 event per bit.
                                    */
    uint16 wlan_crit_max_evt_type; /* The event type of the WLAN critical
                                    * event whose dur is max
                                    */
} wlc_nr5gcx_status_v1_t;
#endif /* _wlioctl_h_ */
